./Ultimate.py --spec ../../../trunk/examples/svcomp/properties/no-data-race.prp --file ../../../trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i --full-output --architecture 32bit -------------------------------------------------------------------------------- Checking for data races Using default analysis Version 6568ba33 Calling Ultimate with: /root/.sdkman/candidates/java/current/bin/java -Dosgi.configuration.area=/storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/config -Xmx15G -Xms4m -jar /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/plugins/org.eclipse.equinox.launcher_1.5.800.v20200727-1323.jar -data @noDefault -ultimatedata /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data -tc /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/GemCutterReach.xml -i ../../../trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i -s /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/svcomp-DataRace-32bit-GemCutter_Default.epf --cacsl2boogietranslator.entry.function main --witnessprinter.witness.directory /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux --witnessprinter.witness.filename witness --witnessprinter.write.witness.besides.input.file false --witnessprinter.graph.data.specification CHECK( init(main()), LTL(G ! data-race) ) --witnessprinter.graph.data.producer GemCutter --witnessprinter.graph.data.architecture 32bit --witnessprinter.graph.data.programhash 9b6f5676df76ead7ff47af365c70465c7b9cb0ddd7acfe90754727af80919440 --- Real Ultimate output --- This is Ultimate 0.2.3-?-6568ba3-m [2023-11-24 02:29:50,922 INFO L188 SettingsManager]: Resetting all preferences to default values... [2023-11-24 02:29:50,986 INFO L114 SettingsManager]: Loading settings from /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/svcomp-DataRace-32bit-GemCutter_Default.epf [2023-11-24 02:29:50,994 WARN L101 SettingsManager]: Preference file contains the following unknown settings: [2023-11-24 02:29:50,995 WARN L103 SettingsManager]: * de.uni_freiburg.informatik.ultimate.core.Log level for class [2023-11-24 02:29:51,032 INFO L130 SettingsManager]: Preferences different from defaults after loading the file: [2023-11-24 02:29:51,034 INFO L151 SettingsManager]: Preferences of UltimateCore differ from their defaults: [2023-11-24 02:29:51,034 INFO L153 SettingsManager]: * Log level for class=de.uni_freiburg.informatik.ultimate.lib.smtlibutils.quantifier.QuantifierPusher=ERROR; [2023-11-24 02:29:51,034 INFO L151 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2023-11-24 02:29:51,037 INFO L153 SettingsManager]: * Ignore calls to procedures called more than once=ONLY_FOR_SEQUENTIAL_PROGRAMS [2023-11-24 02:29:51,038 INFO L151 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2023-11-24 02:29:51,038 INFO L153 SettingsManager]: * Create parallel compositions if possible=false [2023-11-24 02:29:51,039 INFO L153 SettingsManager]: * Use SBE=true [2023-11-24 02:29:51,040 INFO L151 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2023-11-24 02:29:51,040 INFO L153 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2023-11-24 02:29:51,040 INFO L153 SettingsManager]: * sizeof long=4 [2023-11-24 02:29:51,040 INFO L153 SettingsManager]: * Overapproximate operations on floating types=true [2023-11-24 02:29:51,041 INFO L153 SettingsManager]: * sizeof POINTER=4 [2023-11-24 02:29:51,041 INFO L153 SettingsManager]: * Check division by zero=IGNORE [2023-11-24 02:29:51,041 INFO L153 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2023-11-24 02:29:51,041 INFO L153 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * Check absence of data races in concurrent programs=true [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * Check unreachability of reach_error function=false [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * sizeof long double=12 [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * Check if freed pointer was valid=false [2023-11-24 02:29:51,042 INFO L153 SettingsManager]: * Use constant arrays=true [2023-11-24 02:29:51,043 INFO L151 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2023-11-24 02:29:51,043 INFO L153 SettingsManager]: * Size of a code block=SequenceOfStatements [2023-11-24 02:29:51,043 INFO L153 SettingsManager]: * To the following directory=./dump/ [2023-11-24 02:29:51,044 INFO L153 SettingsManager]: * SMT solver=External_DefaultMode [2023-11-24 02:29:51,044 INFO L153 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2023-11-24 02:29:51,044 INFO L151 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopHeads [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Trace refinement strategy=CAMEL [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Apply one-shot large block encoding in concurrent analysis=false [2023-11-24 02:29:51,045 INFO L153 SettingsManager]: * Abstraction used for commutativity in POR=VARIABLES_GLOBAL [2023-11-24 02:29:51,046 INFO L153 SettingsManager]: * Automaton type used in concurrency analysis=PARTIAL_ORDER_FA [2023-11-24 02:29:51,046 INFO L153 SettingsManager]: * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true [2023-11-24 02:29:51,046 INFO L153 SettingsManager]: * CEGAR restart behaviour=ONE_CEGAR_PER_THREAD_INSTANCE [2023-11-24 02:29:51,046 INFO L153 SettingsManager]: * Partial Order Reduction in concurrent analysis=PERSISTENT_SLEEP_NEW_STATES_FIXEDORDER [2023-11-24 02:29:51,046 INFO L153 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode WARNING: An illegal reflective access operation has occurred WARNING: Illegal reflective access by com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 (file:/storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/plugins/com.sun.xml.bind_2.2.0.v201505121915.jar) to method java.lang.ClassLoader.defineClass(java.lang.String,byte[],int,int) WARNING: Please consider reporting this to the maintainers of com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 WARNING: Use --illegal-access=warn to enable warnings of further illegal reflective access operations WARNING: All illegal access operations will be denied in a future release Applying setting for plugin de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator: Entry function -> main Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness directory -> /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness filename -> witness Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Write witness besides input file -> false Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data specification -> CHECK( init(main()), LTL(G ! data-race) ) Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data producer -> GemCutter Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data architecture -> 32bit Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data programhash -> 9b6f5676df76ead7ff47af365c70465c7b9cb0ddd7acfe90754727af80919440 [2023-11-24 02:29:51,205 INFO L75 nceAwareModelManager]: Repository-Root is: /tmp [2023-11-24 02:29:51,221 INFO L261 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2023-11-24 02:29:51,223 INFO L217 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2023-11-24 02:29:51,224 INFO L270 PluginConnector]: Initializing CDTParser... [2023-11-24 02:29:51,224 INFO L274 PluginConnector]: CDTParser initialized [2023-11-24 02:29:51,225 INFO L431 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/../../../trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i [2023-11-24 02:29:52,269 INFO L533 CDTParser]: Created temporary CDT project at NULL [2023-11-24 02:29:52,452 INFO L384 CDTParser]: Found 1 translation units. [2023-11-24 02:29:52,453 INFO L180 CDTParser]: Scanning /storage/repos/ultimate/trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i [2023-11-24 02:29:52,466 INFO L427 CDTParser]: About to delete temporary CDT project at /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/2f7f8bd21/659fc76b13b34c9ba6c9d9fdfad23e58/FLAG92169b19c [2023-11-24 02:29:52,486 INFO L435 CDTParser]: Successfully deleted /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/2f7f8bd21/659fc76b13b34c9ba6c9d9fdfad23e58 [2023-11-24 02:29:52,489 INFO L299 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2023-11-24 02:29:52,490 INFO L133 ToolchainWalker]: Walking toolchain with 6 elements. [2023-11-24 02:29:52,491 INFO L112 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2023-11-24 02:29:52,492 INFO L270 PluginConnector]: Initializing CACSL2BoogieTranslator... [2023-11-24 02:29:52,503 INFO L274 PluginConnector]: CACSL2BoogieTranslator initialized [2023-11-24 02:29:52,504 INFO L184 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:52,504 INFO L204 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@7266124b and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52, skipping insertion in model container [2023-11-24 02:29:52,505 INFO L184 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:52,545 INFO L177 MainTranslator]: Built tables and reachable declarations [2023-11-24 02:29:52,893 INFO L209 PostProcessor]: Analyzing one entry point: main [2023-11-24 02:29:52,904 INFO L202 MainTranslator]: Completed pre-run [2023-11-24 02:29:52,933 INFO L209 PostProcessor]: Analyzing one entry point: main [2023-11-24 02:29:52,976 INFO L206 MainTranslator]: Completed translation [2023-11-24 02:29:52,976 INFO L201 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52 WrapperNode [2023-11-24 02:29:52,977 INFO L131 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2023-11-24 02:29:52,977 INFO L112 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2023-11-24 02:29:52,978 INFO L270 PluginConnector]: Initializing Boogie Procedure Inliner... [2023-11-24 02:29:52,978 INFO L274 PluginConnector]: Boogie Procedure Inliner initialized [2023-11-24 02:29:52,983 INFO L184 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,009 INFO L184 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,027 INFO L138 Inliner]: procedures = 269, calls = 23, calls flagged for inlining = 3, calls inlined = 3, statements flattened = 84 [2023-11-24 02:29:53,027 INFO L131 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2023-11-24 02:29:53,028 INFO L112 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2023-11-24 02:29:53,028 INFO L270 PluginConnector]: Initializing Boogie Preprocessor... [2023-11-24 02:29:53,028 INFO L274 PluginConnector]: Boogie Preprocessor initialized [2023-11-24 02:29:53,034 INFO L184 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,035 INFO L184 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,038 INFO L184 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,038 INFO L184 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,044 INFO L184 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,047 INFO L184 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,048 INFO L184 PluginConnector]: Executing the observer LTLStepAnnotator from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,049 INFO L184 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,058 INFO L131 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2023-11-24 02:29:53,059 INFO L112 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2023-11-24 02:29:53,059 INFO L270 PluginConnector]: Initializing RCFGBuilder... [2023-11-24 02:29:53,059 INFO L274 PluginConnector]: RCFGBuilder initialized [2023-11-24 02:29:53,060 INFO L184 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (1/1) ... [2023-11-24 02:29:53,074 INFO L173 SolverBuilder]: Constructing external solver with command: z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2023-11-24 02:29:53,087 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:53,138 INFO L229 MonitoredProcess]: Starting monitored process 1 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:53,153 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1)] Waiting until timeout for monitored process [2023-11-24 02:29:53,192 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocOnStack [2023-11-24 02:29:53,192 INFO L130 BoogieDeclarations]: Found specification of procedure read~$Pointer$ [2023-11-24 02:29:53,192 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.dealloc [2023-11-24 02:29:53,192 INFO L130 BoogieDeclarations]: Found specification of procedure write~init~$Pointer$ [2023-11-24 02:29:53,193 INFO L130 BoogieDeclarations]: Found specification of procedure #PthreadsMutexUnlock [2023-11-24 02:29:53,193 INFO L130 BoogieDeclarations]: Found specification of procedure read~int [2023-11-24 02:29:53,193 INFO L130 BoogieDeclarations]: Found specification of procedure write~int [2023-11-24 02:29:53,193 INFO L130 BoogieDeclarations]: Found specification of procedure #PthreadsMutexLock [2023-11-24 02:29:53,193 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocOnHeap [2023-11-24 02:29:53,194 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocInit [2023-11-24 02:29:53,194 INFO L130 BoogieDeclarations]: Found specification of procedure write~init~int [2023-11-24 02:29:53,195 INFO L130 BoogieDeclarations]: Found specification of procedure thread [2023-11-24 02:29:53,195 INFO L138 BoogieDeclarations]: Found implementation of procedure thread [2023-11-24 02:29:53,195 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2023-11-24 02:29:53,195 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2023-11-24 02:29:53,196 WARN L213 CfgBuilder]: User set CodeBlockSize to SequenceOfStatements but program contains fork statements. Overwriting the user preferences and setting CodeBlockSize to OneNontrivialStatement [2023-11-24 02:29:53,367 INFO L241 CfgBuilder]: Building ICFG [2023-11-24 02:29:53,369 INFO L267 CfgBuilder]: Building CFG for each procedure with an implementation [2023-11-24 02:29:53,608 INFO L282 CfgBuilder]: Performing block encoding [2023-11-24 02:29:53,621 INFO L304 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2023-11-24 02:29:53,622 INFO L309 CfgBuilder]: Removed 2 assume(true) statements. [2023-11-24 02:29:53,623 INFO L201 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.11 02:29:53 BoogieIcfgContainer [2023-11-24 02:29:53,623 INFO L131 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2023-11-24 02:29:53,625 INFO L112 PluginConnector]: ------------------------TraceAbstraction---------------------------- [2023-11-24 02:29:53,625 INFO L270 PluginConnector]: Initializing TraceAbstraction... [2023-11-24 02:29:53,627 INFO L274 PluginConnector]: TraceAbstraction initialized [2023-11-24 02:29:53,628 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "CDTParser AST 24.11 02:29:52" (1/3) ... [2023-11-24 02:29:53,628 INFO L204 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@59499e94 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 24.11 02:29:53, skipping insertion in model container [2023-11-24 02:29:53,628 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:29:52" (2/3) ... [2023-11-24 02:29:53,628 INFO L204 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@59499e94 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 24.11 02:29:53, skipping insertion in model container [2023-11-24 02:29:53,629 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.11 02:29:53" (3/3) ... [2023-11-24 02:29:53,630 INFO L112 eAbstractionObserver]: Analyzing ICFG thread-join-array-dynamic-race-2.i [2023-11-24 02:29:53,636 WARN L145 ceAbstractionStarter]: Switching off computation of Hoare annotation because input is a concurrent program [2023-11-24 02:29:53,643 INFO L203 ceAbstractionStarter]: Automizer settings: Hoare:false NWA Interpolation:FPandBP Determinization: PREDICATE_ABSTRACTION [2023-11-24 02:29:53,644 INFO L162 ceAbstractionStarter]: Applying trace abstraction to program that has 6 error locations. [2023-11-24 02:29:53,644 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 1 thread instances. [2023-11-24 02:29:53,684 INFO L144 ThreadInstanceAdder]: Constructed 1 joinOtherThreadTransitions. [2023-11-24 02:29:53,721 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:53,722 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:53,722 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:53,724 INFO L229 MonitoredProcess]: Starting monitored process 2 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:53,728 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (2)] Waiting until timeout for monitored process [2023-11-24 02:29:53,764 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:53,773 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of1ForFork0 ======== [2023-11-24 02:29:53,777 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:53,778 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:29:54,008 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:54,012 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:54,012 INFO L85 PathProgramCache]: Analyzing trace with hash -467515743, now seen corresponding path program 1 times [2023-11-24 02:29:54,019 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:54,020 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1771374570] [2023-11-24 02:29:54,020 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:54,021 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:54,112 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:54,195 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:54,195 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:54,196 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1771374570] [2023-11-24 02:29:54,196 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1771374570] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:54,196 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:54,197 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:54,198 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [442479375] [2023-11-24 02:29:54,198 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:54,201 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:54,202 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:54,220 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:54,221 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:54,222 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,224 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:54,225 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 24.0) internal successors, (48), 2 states have internal predecessors, (48), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:54,225 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,240 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,240 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable0 [2023-11-24 02:29:54,240 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:54,241 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:54,241 INFO L85 PathProgramCache]: Analyzing trace with hash -1101997642, now seen corresponding path program 1 times [2023-11-24 02:29:54,241 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:54,241 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1701049063] [2023-11-24 02:29:54,241 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:54,242 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:54,266 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:54,315 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:54,315 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:54,316 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1701049063] [2023-11-24 02:29:54,316 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1701049063] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:54,316 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:54,316 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:54,316 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [754813648] [2023-11-24 02:29:54,316 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:54,317 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:29:54,318 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:54,318 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:29:54,318 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:29:54,319 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,319 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:54,321 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.5) internal successors, (47), 3 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:54,321 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,321 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,411 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,412 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:54,412 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable1 [2023-11-24 02:29:54,413 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:54,413 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:54,413 INFO L85 PathProgramCache]: Analyzing trace with hash 1071753034, now seen corresponding path program 1 times [2023-11-24 02:29:54,414 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:54,414 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1811618248] [2023-11-24 02:29:54,414 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:54,414 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:54,462 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:54,608 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:54,609 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:54,609 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1811618248] [2023-11-24 02:29:54,610 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1811618248] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:29:54,610 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1898266619] [2023-11-24 02:29:54,610 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:54,611 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:29:54,611 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:54,612 INFO L229 MonitoredProcess]: Starting monitored process 3 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:29:54,624 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (3)] Waiting until timeout for monitored process [2023-11-24 02:29:54,705 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:54,706 INFO L262 TraceCheckSpWp]: Trace formula consists of 193 conjuncts, 4 conjunts are in the unsatisfiable core [2023-11-24 02:29:54,711 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:29:54,794 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:54,794 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:29:54,851 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:54,852 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1898266619] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:29:54,852 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:29:54,852 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 5, 5] total 9 [2023-11-24 02:29:54,852 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [47321193] [2023-11-24 02:29:54,853 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:29:54,854 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 9 states [2023-11-24 02:29:54,854 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:54,856 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 9 interpolants. [2023-11-24 02:29:54,857 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=24, Invalid=48, Unknown=0, NotChecked=0, Total=72 [2023-11-24 02:29:54,857 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,858 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:54,859 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 9 states, 9 states have (on average 10.555555555555555) internal successors, (95), 9 states have internal predecessors, (95), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:54,859 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,859 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:54,859 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,974 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:54,974 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:54,975 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 7 states. [2023-11-24 02:29:54,981 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:29:54,993 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (3)] Forceful destruction successful, exit code 0 [2023-11-24 02:29:55,194 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 3 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable2 [2023-11-24 02:29:55,215 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:29:55,225 INFO L307 ceAbstractionStarter]: Result for error location threadThread1of1ForFork0 was SAFE (1/2) [2023-11-24 02:29:55,236 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:55,236 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:55,236 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:55,239 INFO L229 MonitoredProcess]: Starting monitored process 4 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:55,246 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (4)] Waiting until timeout for monitored process [2023-11-24 02:29:55,251 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:55,251 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:29:55,252 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:55,252 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:29:55,282 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:55,283 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:55,283 INFO L85 PathProgramCache]: Analyzing trace with hash 61523058, now seen corresponding path program 1 times [2023-11-24 02:29:55,283 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:55,283 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1855812253] [2023-11-24 02:29:55,283 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:55,283 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:55,293 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:55,302 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:55,303 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:55,303 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1855812253] [2023-11-24 02:29:55,303 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1855812253] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:55,304 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:55,304 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:55,304 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [2102900024] [2023-11-24 02:29:55,304 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:55,304 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:55,305 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:55,305 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:55,305 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:55,306 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,306 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:55,306 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:55,307 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,309 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,309 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable3 [2023-11-24 02:29:55,309 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:55,310 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:55,310 INFO L85 PathProgramCache]: Analyzing trace with hash 2033798269, now seen corresponding path program 1 times [2023-11-24 02:29:55,310 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:55,310 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [176710083] [2023-11-24 02:29:55,310 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:55,311 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:55,338 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:55,652 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:55,652 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:55,653 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [176710083] [2023-11-24 02:29:55,653 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [176710083] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:55,653 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:55,653 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:29:55,653 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [175076433] [2023-11-24 02:29:55,653 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:55,654 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:29:55,654 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:55,661 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:29:55,661 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:29:55,661 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,661 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:55,662 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:55,662 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,662 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,741 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,743 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:29:55,743 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable4 [2023-11-24 02:29:55,743 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:55,744 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:55,744 INFO L85 PathProgramCache]: Analyzing trace with hash 1120758050, now seen corresponding path program 1 times [2023-11-24 02:29:55,744 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:55,744 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [740742107] [2023-11-24 02:29:55,744 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:55,745 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:55,771 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:55,772 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:29:55,791 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:55,812 INFO L130 FreeRefinementEngine]: Strategy CAMEL found a feasible trace [2023-11-24 02:29:55,813 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:29:55,813 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:29:55,813 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:29:55,813 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:29:55,814 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:29:55,815 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:29:55,815 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:29:55,815 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable5 [2023-11-24 02:29:55,818 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:29:55,819 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (2/2) [2023-11-24 02:29:55,819 WARN L233 ceAbstractionStarter]: 1 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:29:55,819 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 2 thread instances. [2023-11-24 02:29:55,839 INFO L144 ThreadInstanceAdder]: Constructed 2 joinOtherThreadTransitions. [2023-11-24 02:29:55,844 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:55,844 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:55,844 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:55,862 INFO L229 MonitoredProcess]: Starting monitored process 5 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:55,867 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:55,867 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of2ForFork0 ======== [2023-11-24 02:29:55,867 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:55,867 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:29:55,894 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (5)] Waiting until timeout for monitored process [2023-11-24 02:29:55,951 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:55,952 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:55,952 INFO L85 PathProgramCache]: Analyzing trace with hash 601762193, now seen corresponding path program 1 times [2023-11-24 02:29:55,952 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:55,952 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [3772297] [2023-11-24 02:29:55,952 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:55,953 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:55,964 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:55,975 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:55,975 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:55,975 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [3772297] [2023-11-24 02:29:55,976 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [3772297] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:55,976 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:55,976 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:55,976 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1420179810] [2023-11-24 02:29:55,976 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:55,977 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:55,977 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:55,977 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:55,977 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:55,978 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,979 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:55,979 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 24.0) internal successors, (48), 2 states have internal predecessors, (48), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:55,979 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,988 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:55,988 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable6 [2023-11-24 02:29:55,988 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:55,989 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:55,989 INFO L85 PathProgramCache]: Analyzing trace with hash -508063935, now seen corresponding path program 1 times [2023-11-24 02:29:55,989 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:55,989 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [2075780294] [2023-11-24 02:29:55,989 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:55,989 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:55,998 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:56,011 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:56,014 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:56,014 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [2075780294] [2023-11-24 02:29:56,014 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [2075780294] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:56,014 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:56,014 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:56,015 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [557391539] [2023-11-24 02:29:56,015 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:56,015 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:29:56,015 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:56,016 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:29:56,019 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:29:56,019 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,020 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:56,020 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.5) internal successors, (47), 3 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:56,020 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,020 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,102 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,102 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,102 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable7 [2023-11-24 02:29:56,102 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:56,103 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:56,103 INFO L85 PathProgramCache]: Analyzing trace with hash 933320021, now seen corresponding path program 1 times [2023-11-24 02:29:56,103 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:56,103 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [819114124] [2023-11-24 02:29:56,103 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:56,103 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:56,118 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:56,213 INFO L134 CoverageAnalysis]: Checked inductivity of 35 backedges. 20 proven. 0 refuted. 0 times theorem prover too weak. 15 trivial. 0 not checked. [2023-11-24 02:29:56,213 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:56,213 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [819114124] [2023-11-24 02:29:56,213 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [819114124] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:56,214 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:56,214 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:29:56,214 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [974325805] [2023-11-24 02:29:56,214 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:56,214 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:29:56,214 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:56,215 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:29:56,215 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:29:56,215 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,216 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:56,216 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 24.333333333333332) internal successors, (73), 3 states have internal predecessors, (73), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:56,217 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,217 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,217 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,278 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,279 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,279 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,279 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable8 [2023-11-24 02:29:56,279 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:56,279 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:56,280 INFO L85 PathProgramCache]: Analyzing trace with hash -445716558, now seen corresponding path program 1 times [2023-11-24 02:29:56,280 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:56,280 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [533766666] [2023-11-24 02:29:56,280 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:56,280 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:56,296 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:56,358 INFO L134 CoverageAnalysis]: Checked inductivity of 19 backedges. 0 proven. 16 refuted. 0 times theorem prover too weak. 3 trivial. 0 not checked. [2023-11-24 02:29:56,358 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:56,358 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [533766666] [2023-11-24 02:29:56,359 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [533766666] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:29:56,359 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1014679379] [2023-11-24 02:29:56,359 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:56,359 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:29:56,359 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:56,376 INFO L229 MonitoredProcess]: Starting monitored process 6 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:29:56,392 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (6)] Waiting until timeout for monitored process [2023-11-24 02:29:56,467 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:56,469 INFO L262 TraceCheckSpWp]: Trace formula consists of 252 conjuncts, 6 conjunts are in the unsatisfiable core [2023-11-24 02:29:56,470 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:29:56,560 INFO L134 CoverageAnalysis]: Checked inductivity of 19 backedges. 1 proven. 18 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:56,560 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:29:56,630 INFO L134 CoverageAnalysis]: Checked inductivity of 19 backedges. 1 proven. 18 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:56,631 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1014679379] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:29:56,631 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:29:56,631 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 7, 7] total 14 [2023-11-24 02:29:56,631 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [440458529] [2023-11-24 02:29:56,631 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:29:56,632 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 14 states [2023-11-24 02:29:56,632 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:56,632 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 14 interpolants. [2023-11-24 02:29:56,632 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=41, Invalid=141, Unknown=0, NotChecked=0, Total=182 [2023-11-24 02:29:56,633 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,633 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:56,633 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 14 states, 14 states have (on average 11.285714285714286) internal successors, (158), 14 states have internal predecessors, (158), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:56,633 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,633 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,634 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,634 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,880 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:56,880 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,880 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:56,881 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 13 states. [2023-11-24 02:29:56,881 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:29:56,895 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (6)] Forceful destruction successful, exit code 0 [2023-11-24 02:29:57,093 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 6 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable9 [2023-11-24 02:29:57,096 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1, 1] [2023-11-24 02:29:57,096 INFO L307 ceAbstractionStarter]: Result for error location threadThread1of2ForFork0 was SAFE (1/3) [2023-11-24 02:29:57,098 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,098 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:57,098 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:57,099 INFO L229 MonitoredProcess]: Starting monitored process 7 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:57,102 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:57,102 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:29:57,102 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,102 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:29:57,115 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,115 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,115 INFO L85 PathProgramCache]: Analyzing trace with hash -2121387795, now seen corresponding path program 1 times [2023-11-24 02:29:57,115 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,115 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1114611543] [2023-11-24 02:29:57,116 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,116 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,116 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (7)] Waiting until timeout for monitored process [2023-11-24 02:29:57,122 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,135 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:57,135 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,136 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1114611543] [2023-11-24 02:29:57,136 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1114611543] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,136 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,136 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:57,136 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [194089601] [2023-11-24 02:29:57,136 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,137 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:57,137 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,137 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:57,137 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:57,137 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,138 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,138 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,138 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,140 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,140 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable10 [2023-11-24 02:29:57,140 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,141 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,141 INFO L85 PathProgramCache]: Analyzing trace with hash -946112195, now seen corresponding path program 1 times [2023-11-24 02:29:57,141 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,142 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [317135011] [2023-11-24 02:29:57,142 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,142 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,153 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,287 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:57,287 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,287 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [317135011] [2023-11-24 02:29:57,287 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [317135011] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,287 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,288 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:29:57,288 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [973398799] [2023-11-24 02:29:57,288 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,288 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:29:57,288 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,289 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:29:57,289 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:29:57,289 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,290 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,290 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,290 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,290 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,365 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,366 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:29:57,366 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable11 [2023-11-24 02:29:57,366 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,366 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,367 INFO L85 PathProgramCache]: Analyzing trace with hash 1249383634, now seen corresponding path program 1 times [2023-11-24 02:29:57,367 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,367 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1907748257] [2023-11-24 02:29:57,367 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,367 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,410 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:57,411 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:29:57,424 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:57,438 INFO L130 FreeRefinementEngine]: Strategy CAMEL found a feasible trace [2023-11-24 02:29:57,438 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:29:57,438 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:29:57,438 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:29:57,439 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:29:57,439 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:29:57,439 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:29:57,439 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:29:57,439 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable12 [2023-11-24 02:29:57,443 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:29:57,443 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (2/3) [2023-11-24 02:29:57,458 WARN L233 ceAbstractionStarter]: 2 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:29:57,458 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 3 thread instances. [2023-11-24 02:29:57,477 INFO L144 ThreadInstanceAdder]: Constructed 3 joinOtherThreadTransitions. [2023-11-24 02:29:57,479 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,479 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:57,479 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:57,496 INFO L229 MonitoredProcess]: Starting monitored process 8 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:57,501 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:57,501 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:29:57,501 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,501 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:29:57,514 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,515 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,515 INFO L85 PathProgramCache]: Analyzing trace with hash -119352723, now seen corresponding path program 1 times [2023-11-24 02:29:57,515 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,515 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1564446613] [2023-11-24 02:29:57,515 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,515 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,521 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,524 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:57,525 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,525 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1564446613] [2023-11-24 02:29:57,525 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1564446613] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,525 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,525 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:57,525 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [530199587] [2023-11-24 02:29:57,525 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,526 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:57,526 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,526 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:57,526 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:57,526 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,527 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,527 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,525 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (8)] Waiting until timeout for monitored process [2023-11-24 02:29:57,530 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,530 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,531 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable13 [2023-11-24 02:29:57,531 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,531 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,531 INFO L85 PathProgramCache]: Analyzing trace with hash -1020077763, now seen corresponding path program 1 times [2023-11-24 02:29:57,531 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,531 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1775958340] [2023-11-24 02:29:57,531 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,532 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,538 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,675 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:57,675 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,675 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1775958340] [2023-11-24 02:29:57,676 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1775958340] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,676 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,676 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:29:57,676 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1155109850] [2023-11-24 02:29:57,676 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,676 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:29:57,676 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,677 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:29:57,677 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:29:57,677 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,677 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,678 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,678 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,678 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,748 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,749 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:29:57,749 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable14 [2023-11-24 02:29:57,749 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:29:57,749 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,750 INFO L85 PathProgramCache]: Analyzing trace with hash -2091494020, now seen corresponding path program 1 times [2023-11-24 02:29:57,750 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,750 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [2058756583] [2023-11-24 02:29:57,750 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,750 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,770 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:57,771 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:29:57,782 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:29:57,790 INFO L130 FreeRefinementEngine]: Strategy CAMEL found a feasible trace [2023-11-24 02:29:57,790 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:29:57,790 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:29:57,790 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:29:57,790 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:29:57,791 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:29:57,791 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:29:57,791 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:29:57,791 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable15 [2023-11-24 02:29:57,793 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:29:57,793 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (1/4) [2023-11-24 02:29:57,793 WARN L233 ceAbstractionStarter]: 3 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:29:57,793 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 4 thread instances. [2023-11-24 02:29:57,808 INFO L144 ThreadInstanceAdder]: Constructed 4 joinOtherThreadTransitions. [2023-11-24 02:29:57,810 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,810 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:29:57,810 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:57,818 INFO L229 MonitoredProcess]: Starting monitored process 9 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:29:57,832 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (9)] Waiting until timeout for monitored process [2023-11-24 02:29:57,834 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:29:57,835 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread3of4ForFork0 ======== [2023-11-24 02:29:57,835 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:29:57,835 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:29:57,915 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:57,916 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,916 INFO L85 PathProgramCache]: Analyzing trace with hash -329022064, now seen corresponding path program 1 times [2023-11-24 02:29:57,916 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,916 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1979905802] [2023-11-24 02:29:57,916 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,916 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,927 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,934 INFO L134 CoverageAnalysis]: Checked inductivity of 39 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:29:57,934 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,934 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1979905802] [2023-11-24 02:29:57,934 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1979905802] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,934 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,935 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:57,935 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1575913665] [2023-11-24 02:29:57,935 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,935 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:29:57,935 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,935 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:29:57,936 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:29:57,936 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,936 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,936 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 28.0) internal successors, (56), 2 states have internal predecessors, (56), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,936 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,948 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,948 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable16 [2023-11-24 02:29:57,948 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:57,948 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:57,949 INFO L85 PathProgramCache]: Analyzing trace with hash -2073558917, now seen corresponding path program 1 times [2023-11-24 02:29:57,949 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:57,949 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1543018774] [2023-11-24 02:29:57,949 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:57,949 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:57,962 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:57,978 INFO L134 CoverageAnalysis]: Checked inductivity of 39 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:29:57,978 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:57,979 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1543018774] [2023-11-24 02:29:57,979 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1543018774] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:57,979 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:57,979 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:29:57,979 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1734275217] [2023-11-24 02:29:57,979 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:57,979 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:29:57,980 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:57,980 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:29:57,980 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:29:57,980 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,981 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:57,981 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 27.5) internal successors, (55), 3 states have internal predecessors, (55), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:57,981 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:57,981 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:58,714 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:58,715 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:58,715 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable17 [2023-11-24 02:29:58,715 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:58,715 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:58,716 INFO L85 PathProgramCache]: Analyzing trace with hash 16509459, now seen corresponding path program 1 times [2023-11-24 02:29:58,716 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:58,716 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1528196937] [2023-11-24 02:29:58,716 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:58,716 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:58,732 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:58,793 INFO L134 CoverageAnalysis]: Checked inductivity of 78 backedges. 39 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:29:58,794 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:58,794 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1528196937] [2023-11-24 02:29:58,794 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1528196937] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:29:58,794 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:29:58,794 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:29:58,794 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [306947326] [2023-11-24 02:29:58,794 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:29:58,795 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:29:58,795 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:58,795 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:29:58,795 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:29:58,795 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:58,796 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:58,796 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 26.0) internal successors, (78), 3 states have internal predecessors, (78), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:58,796 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:58,796 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:58,796 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:59,068 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:59,069 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:59,069 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:59,069 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable18 [2023-11-24 02:29:59,069 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:29:59,069 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:29:59,069 INFO L85 PathProgramCache]: Analyzing trace with hash -39734863, now seen corresponding path program 1 times [2023-11-24 02:29:59,069 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:29:59,070 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1773020457] [2023-11-24 02:29:59,070 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:59,070 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:29:59,089 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:59,162 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 0 proven. 46 refuted. 0 times theorem prover too weak. 60 trivial. 0 not checked. [2023-11-24 02:29:59,162 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:29:59,162 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1773020457] [2023-11-24 02:29:59,163 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1773020457] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:29:59,163 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1267945953] [2023-11-24 02:29:59,163 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:29:59,163 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:29:59,163 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:29:59,164 INFO L229 MonitoredProcess]: Starting monitored process 10 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:29:59,191 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (10)] Waiting until timeout for monitored process [2023-11-24 02:29:59,307 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:29:59,309 INFO L262 TraceCheckSpWp]: Trace formula consists of 370 conjuncts, 10 conjunts are in the unsatisfiable core [2023-11-24 02:29:59,311 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:29:59,465 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 54 proven. 52 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:59,466 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:29:59,614 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 54 proven. 52 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:29:59,614 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1267945953] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:29:59,614 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:29:59,614 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 11, 11] total 22 [2023-11-24 02:29:59,615 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [2130608782] [2023-11-24 02:29:59,615 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:29:59,615 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 22 states [2023-11-24 02:29:59,615 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:29:59,616 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 22 interpolants. [2023-11-24 02:29:59,616 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=93, Invalid=369, Unknown=0, NotChecked=0, Total=462 [2023-11-24 02:29:59,616 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:59,617 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:29:59,617 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 22 states, 22 states have (on average 10.363636363636363) internal successors, (228), 22 states have internal predecessors, (228), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:29:59,617 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:29:59,617 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:59,617 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:29:59,617 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:30:03,015 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:30:03,016 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:30:03,016 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:30:03,016 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 20 states. [2023-11-24 02:30:03,032 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (10)] Ended with exit code 0 [2023-11-24 02:30:03,228 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable19,10 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:30:03,229 INFO L420 AbstractCegarLoop]: === Iteration 5 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:30:03,229 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:30:03,229 INFO L85 PathProgramCache]: Analyzing trace with hash -1254814750, now seen corresponding path program 1 times [2023-11-24 02:30:03,229 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:30:03,229 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [560355643] [2023-11-24 02:30:03,229 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:30:03,229 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:30:03,345 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:30:06,264 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 119 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:30:06,264 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:30:06,264 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [560355643] [2023-11-24 02:30:06,264 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [560355643] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:30:06,264 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1957899423] [2023-11-24 02:30:06,264 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:30:06,265 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:30:06,265 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:30:06,266 INFO L229 MonitoredProcess]: Starting monitored process 11 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:30:06,270 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (11)] Waiting until timeout for monitored process [2023-11-24 02:30:06,532 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:30:06,535 INFO L262 TraceCheckSpWp]: Trace formula consists of 566 conjuncts, 59 conjunts are in the unsatisfiable core [2023-11-24 02:30:06,540 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:30:06,681 INFO L349 Elim1Store]: treesize reduction 17, result has 22.7 percent of original size [2023-11-24 02:30:06,681 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 1 case distinctions, treesize of input 25 treesize of output 18 [2023-11-24 02:30:06,847 INFO L349 Elim1Store]: treesize reduction 17, result has 22.7 percent of original size [2023-11-24 02:30:06,848 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 1 case distinctions, treesize of input 25 treesize of output 18 [2023-11-24 02:30:06,851 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 8 treesize of output 1 [2023-11-24 02:30:07,165 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:30:07,166 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 69 treesize of output 62 [2023-11-24 02:30:07,172 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 27 treesize of output 19 [2023-11-24 02:30:07,185 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:07,186 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 36 treesize of output 23 [2023-11-24 02:30:07,508 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:30:07,509 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 96 treesize of output 85 [2023-11-24 02:30:07,521 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:07,522 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 55 treesize of output 23 [2023-11-24 02:30:07,526 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:07,527 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 36 treesize of output 23 [2023-11-24 02:30:07,897 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 36 treesize of output 24 [2023-11-24 02:30:07,903 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 23 treesize of output 15 [2023-11-24 02:30:07,956 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 9 [2023-11-24 02:30:08,026 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 119 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:30:08,026 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:30:09,084 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|)) (.cse2 (+ |c_ULTIMATE.start_main_#t~mem11#1.offset| (* |c_ULTIMATE.start_main_~i~0#1| 4)))) (and (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse0 (mod (select (select (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse1 .cse2 v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (< .cse0 2147483648) (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296)))))) (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse3 (mod (select (select (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse1 .cse2 v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (not (= c_threadThread2of4ForFork0_thidvar0 .cse3)) (< 2147483647 .cse3)))))) is different from false [2023-11-24 02:30:09,213 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse2 (select |c_#memory_int| .cse1)) (.cse3 (* |c_ULTIMATE.start_main_~i~0#1| 4))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_21| Int)) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ .cse3 |v_ULTIMATE.start_main_#t~mem11#1.offset_21|) v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (< 2147483647 .cse0) (not (= c_threadThread2of4ForFork0_thidvar0 .cse0))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_21| .cse4))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_21| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_21| .cse4) (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ .cse3 |v_ULTIMATE.start_main_#t~mem11#1.offset_21|) v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (< .cse5 2147483648) (not (= (+ c_threadThread2of4ForFork0_thidvar0 4294967296) .cse5)))))))))) is different from false [2023-11-24 02:30:11,003 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse3 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse2 (select |c_#memory_int| .cse1)) (.cse4 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_25| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_21| Int)) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_21| (* |v_ULTIMATE.start_main_~i~0#1_25| 4)) v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< .cse0 2147483648)))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_21| .cse3))) (< |v_ULTIMATE.start_main_~i~0#1_25| .cse4))) (forall ((|v_ULTIMATE.start_main_~i~0#1_25| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_21| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_21| .cse3) (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1004 Int)) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_21| (* |v_ULTIMATE.start_main_~i~0#1_25| 4)) v_ArrVal_1004)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (+ (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8)) 4294967296))) (or (not (= c_threadThread2of4ForFork0_thidvar0 .cse5)) (< 2147483647 .cse5)))))) (< |v_ULTIMATE.start_main_~i~0#1_25| .cse4)))))) is different from false [2023-11-24 02:30:11,462 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 776 treesize of output 696 [2023-11-24 02:30:12,189 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 768 treesize of output 688 [2023-11-24 02:30:17,489 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse15 (* |c_ULTIMATE.start_main_~i~0#1| 4))) (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse5 (+ (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15))) (let ((.cse33 (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5))) (.cse6 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (= (select (select (let ((.cse43 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (store .cse43 (select (select .cse43 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4))) (.cse11 (mod |c_#pthreadsForks| 4294967296))) (let ((.cse22 (< .cse11 2147483648)) (.cse31 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse39 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse42 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002)) (.cse40 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (select (select (store .cse42 .cse40 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse39 .cse40 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse40)) (< (+ .cse41 4) (+ (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15)) (= (+ .cse41 8) .cse5))))))) (.cse32 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse38 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse36 (select (select .cse38 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (select (select (store .cse38 .cse36 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse35 .cse4) (not (= .cse35 .cse36)) (let ((.cse37 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002))) (< (+ (select (select (store .cse37 .cse36 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4) (+ (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15))))))))) (.cse0 (< 0 (+ c_threadThread2of4ForFork0_thidvar0 1))) (.cse1 (< (+ c_threadThread2of4ForFork0_thidvar0 2147483648) 0)) (.cse34 (and .cse33 .cse6)) (.cse16 (< 2147483647 c_threadThread2of4ForFork0_thidvar0)) (.cse21 (< c_threadThread2of4ForFork0_thidvar0 0))) (and (or .cse0 .cse1 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse2 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse3 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse2 .cse3 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) .cse3 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5)))))) (or .cse0 .cse1 .cse6) (or .cse0 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse8 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse7 .cse8 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse8)))) .cse1) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse10 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse9 .cse10 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (not (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) .cse10 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5)))))) (not (= c_threadThread2of4ForFork0_thidvar0 .cse11)) (< 2147483647 .cse11)) (or .cse0 .cse1 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse13 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse12 .cse13 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4) (let ((.cse14 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002))) (< (+ (select (select (store .cse14 .cse13 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4) (+ (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15)))))))) (or .cse16 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse20 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002)) (.cse18 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse19 (select (select (store .cse20 .cse18 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse17 .cse18 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (not (= (+ .cse19 8) .cse5)) (< (+ .cse19 4) (+ (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15))))))) .cse21) (or (not (= .cse11 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) .cse22 (and (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse23 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse24 (select (select .cse23 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse23 .cse24 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse24) (not (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) .cse24 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5)))))) (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (not (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5))))) (or .cse0 .cse1 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse26 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse25 .cse26 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse26) (= (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002) .cse26 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 8) .cse5)))))) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse27 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1003))) (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1002)) (.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (select (select (store .cse30 .cse28 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse27 .cse28 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse28)) (not (= (+ .cse29 8) .cse5)) (< (+ .cse29 4) (+ (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15))))))) .cse0 .cse1) (or .cse0 .cse1 (and .cse31 .cse32)) (or .cse0 .cse33 .cse1) (or (and (or .cse34 .cse22) .cse31 .cse32) .cse0 .cse1) (or .cse34 .cse16 .cse21)))))) is different from false [2023-11-24 02:30:18,083 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse16 (* |c_ULTIMATE.start_main_#t~post9#1| 4))) (let ((.cse1 (+ (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16)) (.cse2 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))) (.cse10 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (= (select (select (let ((.cse43 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (store .cse43 (select (select .cse43 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2))) (.cse0 (mod |c_#pthreadsForks| 4294967296))) (let ((.cse5 (< .cse0 2147483648)) (.cse17 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse40 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (select (select (store .cse42 .cse40 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse39 .cse2) (not (= .cse39 .cse40)) (let ((.cse41 (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002))) (< (select (select (store .cse41 .cse40 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (+ (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16))))))))) (.cse18 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse35 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse38 (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002)) (.cse36 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse37 (select (select (store .cse38 .cse36 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse35 .cse36 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse36)) (< .cse37 (+ (select (select .cse38 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16)) (= .cse1 (+ .cse37 4)))))))) (.cse23 (< 2147483647 c_threadThread2of4ForFork0_thidvar0)) (.cse24 (< c_threadThread2of4ForFork0_thidvar0 0)) (.cse19 (and .cse22 .cse10)) (.cse8 (< 0 (+ c_threadThread2of4ForFork0_thidvar0 1))) (.cse9 (< (+ c_threadThread2of4ForFork0_thidvar0 2147483648) 0))) (and (or (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (and (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (not (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))) (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse3 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse4 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse3 .cse4 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4) (not (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) .cse4 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))))))) .cse5) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse7 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse6 .cse7 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2)) (not (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) .cse7 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4))))))) (not (= c_threadThread2of4ForFork0_thidvar0 .cse0)) (< 2147483647 .cse0)) (or .cse8 .cse9 .cse10) (or .cse8 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse11 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse11 .cse12 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)))) .cse9) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse13 .cse14 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002))) (< (select (select (store .cse15 .cse14 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (+ (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16))))))) .cse8 .cse9) (or (and .cse17 .cse18 (or .cse5 .cse19)) .cse8 .cse9) (or .cse8 .cse9 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse20 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse20 .cse21 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse21) (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) .cse21 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4))))))) (or .cse22 .cse8 .cse9) (or .cse23 .cse24 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse28 (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002)) (.cse26 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse26 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse25 .cse26 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2)) (< .cse27 (+ (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16)) (not (= .cse1 (+ .cse27 4))))))))) (or (and .cse17 .cse18) .cse8 .cse9) (or .cse23 .cse24 .cse19) (or .cse8 .cse9 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse29 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse29 .cse30 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)) (= .cse1 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002) .cse30 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4))))))) (or .cse8 .cse9 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse31 (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1003))) (let ((.cse34 (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1002)) (.cse32 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (select (select (store .cse34 .cse32 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse31 .cse32 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse32)) (< .cse33 (+ (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse16)) (not (= .cse1 (+ .cse33 4)))))))))))))) is different from false [2023-11-24 02:30:18,257 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (* |c_ULTIMATE.start_main_~i~0#1| 4))) (let ((.cse8 (+ (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (mod |c_#pthreadsForks| 4294967296)) (.cse29 (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))) (.cse2 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (= (select (select (let ((.cse43 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (store .cse43 (select (select .cse43 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)))) (let ((.cse13 (and .cse29 .cse2)) (.cse16 (< 2147483647 c_threadThread2of4ForFork0_thidvar0)) (.cse17 (< c_threadThread2of4ForFork0_thidvar0 0)) (.cse12 (< .cse22 2147483648)) (.cse14 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse41 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse40 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002)) (.cse42 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (select (select (store .cse40 .cse42 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (< .cse39 (+ (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (not (= (select (select (store .cse41 .cse42 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse42)) (= .cse8 (+ .cse39 4)))))))) (.cse15 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse38 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse36 (select (select .cse38 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse37 (select (select (store .cse38 .cse36 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse35 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002))) (< (select (select (store .cse35 .cse36 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (+ (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))) (= .cse37 .cse9) (not (= .cse37 .cse36)))))))) (.cse0 (< 0 (+ c_threadThread2of4ForFork0_thidvar0 1))) (.cse1 (< (+ c_threadThread2of4ForFork0_thidvar0 2147483648) 0))) (and (or .cse0 .cse1 .cse2) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse4 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002)) (.cse7 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse3 (select (select (store .cse4 .cse7 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (< .cse3 (+ (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (not (= (select (select (store .cse6 .cse7 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse7)) (not (= .cse8 (+ .cse3 4)))))))) .cse0 .cse1) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse11 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse10 .cse11 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse11)) (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) .cse11 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))))) .cse0 .cse1) (or (and (or .cse12 .cse13) .cse14 .cse15) .cse0 .cse1) (or .cse16 .cse17 .cse13) (or .cse0 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse18 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse19 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse18 .cse19 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse19)))) .cse1) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse20 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse20 .cse21 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)) (not (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) .cse21 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4))))))) (not (= c_threadThread2of4ForFork0_thidvar0 .cse22)) (< 2147483647 .cse22)) (or (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse23 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse26 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002)) (.cse24 (select (select .cse23 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse25 (select (select (store .cse26 .cse24 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse23 .cse24 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)) (< .cse25 (+ (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (not (= .cse8 (+ .cse25 4)))))))) .cse16 .cse17) (or (and (forall ((v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (not (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) (select (select (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))) (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse28 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse27 (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) .cse27 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4))) (= (select (select (store .cse28 .cse27 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse27)))))) (not (= .cse22 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) .cse12) (or .cse29 .cse0 .cse1) (or .cse0 .cse1 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse32 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse31 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002))) (< (select (select (store .cse30 .cse31 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (+ (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))) (= (select (select (store .cse32 .cse31 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)))))) (or (and .cse14 .cse15) .cse0 .cse1) (or .cse0 .cse1 (forall ((v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1005 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (v_ArrVal_1002 (Array Int Int))) (let ((.cse33 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1003))) (let ((.cse34 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse33 .cse34 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse34) (= .cse8 (+ (select (select (store (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1002) .cse34 v_ArrVal_1005) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) 4)))))))))))) is different from false [2023-11-24 02:30:19,627 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1908 treesize of output 1780 [2023-11-24 02:30:19,641 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 238 treesize of output 232 [2023-11-24 02:30:19,646 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 108 treesize of output 104 [2023-11-24 02:30:19,651 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 123 treesize of output 115 [2023-11-24 02:30:19,713 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 5896 treesize of output 5608 [2023-11-24 02:30:19,736 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 376 treesize of output 368 [2023-11-24 02:30:19,743 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 368 treesize of output 352 [2023-11-24 02:30:19,752 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 352 treesize of output 344 [2023-11-24 02:30:19,814 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1908 treesize of output 1780 [2023-11-24 02:30:19,823 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 110 treesize of output 106 [2023-11-24 02:30:19,828 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 127 treesize of output 119 [2023-11-24 02:30:19,831 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 226 treesize of output 220 [2023-11-24 02:30:19,863 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:19,864 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:19,866 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 38 treesize of output 34 [2023-11-24 02:30:19,868 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 30 [2023-11-24 02:30:19,871 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 15 treesize of output 13 [2023-11-24 02:30:19,886 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 5896 treesize of output 5608 [2023-11-24 02:30:20,023 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 376 treesize of output 368 [2023-11-24 02:30:20,032 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 368 treesize of output 360 [2023-11-24 02:30:20,051 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 360 treesize of output 344 [2023-11-24 02:30:20,112 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1908 treesize of output 1780 [2023-11-24 02:30:20,123 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 238 treesize of output 232 [2023-11-24 02:30:20,130 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 108 treesize of output 104 [2023-11-24 02:30:20,135 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 123 treesize of output 115 [2023-11-24 02:30:20,184 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:20,185 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:30:20,209 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 5831 treesize of output 5543 [2023-11-24 02:30:20,232 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 367 treesize of output 359 [2023-11-24 02:30:20,257 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 251 treesize of output 235 [2023-11-24 02:30:20,266 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 228 treesize of output 220 [2023-11-24 02:30:20,373 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1972 treesize of output 1844 [2023-11-24 02:30:20,382 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 92 treesize of output 88 [2023-11-24 02:30:20,386 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 88 treesize of output 86 [2023-11-24 02:30:20,401 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 110 treesize of output 102 [2023-11-24 02:30:20,405 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 102 treesize of output 98 [2023-11-24 02:30:20,420 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:20,421 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:20,423 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40 treesize of output 36 [2023-11-24 02:30:20,428 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 14 treesize of output 12 [2023-11-24 02:30:20,437 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:20,443 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 32 [2023-11-24 02:30:20,447 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 32 treesize of output 30 [2023-11-24 02:30:20,461 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1908 treesize of output 1780 [2023-11-24 02:30:20,469 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 238 treesize of output 232 [2023-11-24 02:30:20,475 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 108 treesize of output 104 [2023-11-24 02:30:20,480 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 123 treesize of output 115 [2023-11-24 02:30:20,507 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:30:20,508 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:30:20,517 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 5831 treesize of output 5543 [2023-11-24 02:30:20,533 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 367 treesize of output 359 [2023-11-24 02:30:20,541 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 251 treesize of output 235 [2023-11-24 02:30:20,549 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 228 treesize of output 220 [2023-11-24 02:30:20,610 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1972 treesize of output 1844 [2023-11-24 02:30:20,619 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 246 treesize of output 238 [2023-11-24 02:30:20,625 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 238 treesize of output 232 [2023-11-24 02:30:20,630 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 232 treesize of output 228 [2023-11-24 02:30:20,663 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse17 (mod |c_#pthreadsForks| 4294967296))) (let ((.cse3 (< |c_ULTIMATE.start_main_#t~pre10#1| 0)) (.cse8 (< 2147483647 |c_ULTIMATE.start_main_#t~pre10#1|)) (.cse1 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse35 (let ((.cse37 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (store .cse37 (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse36 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse35 .cse36 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse36))))) (.cse5 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse34 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (store .cse34 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (.cse7 (= |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse4 (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (.cse6 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse32 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (let ((.cse33 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse31 (store .cse32 .cse33 v_ArrVal_1003))) (store .cse31 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse33))))) (.cse21 (< .cse17 2147483648)) (.cse27 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse29 (let ((.cse30 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (store .cse30 (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse28 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse28)) (not (= (select (select (store .cse29 .cse28 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse28))))))) (.cse0 (< 0 (+ |c_ULTIMATE.start_main_#t~pre10#1| 1))) (.cse2 (< (+ |c_ULTIMATE.start_main_#t~pre10#1| 2147483648) 0))) (and (or .cse0 .cse1 .cse2) (or .cse3 (and .cse4 .cse5 .cse6 .cse7) .cse8) (or .cse0 .cse2 .cse6) (or .cse3 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse12 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse12 .cse11 v_ArrVal_1003))) (let ((.cse10 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse9 .cse10 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse11)) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse10)))))))) .cse8) (or .cse0 .cse2 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse16 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (let ((.cse13 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse13)) (not (let ((.cse14 (store .cse16 .cse13 v_ArrVal_1003))) (let ((.cse15 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse14 .cse15 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15))))))))) (or (not (= |c_ULTIMATE.start_main_#t~pre10#1| .cse17)) (< 2147483647 .cse17) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (let ((.cse19 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (let ((.cse20 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse18 (store .cse19 .cse20 v_ArrVal_1003))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse20)))))) (or (not (= .cse17 (+ |c_ULTIMATE.start_main_#t~pre10#1| 4294967296))) .cse21 (and .cse1 (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse22 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (store .cse22 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) .cse5)) (or .cse0 (and .cse4 .cse7) .cse2) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse26 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_998))) (let ((.cse25 (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse24 (store .cse26 .cse25 v_ArrVal_1003))) (let ((.cse23 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse23)) (= (select (select (store .cse24 .cse23 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse25))))))) .cse0 .cse2) (or .cse0 .cse2 .cse27) (or (and (or (and .cse4 .cse6) .cse21) .cse27) .cse0 .cse2)))) is different from false [2023-11-24 02:30:27,068 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse4 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse0 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse0)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (let ((.cse3 (store .cse4 .cse0 v_ArrVal_1003))) (let ((.cse2 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse2 (select (select (store .cse3 .cse2 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse6 (let ((.cse7 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse7 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse5 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse5)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (= .cse5 (select (select (store .cse6 .cse5 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse8 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse8 (select (select (let ((.cse9 (store .cse10 .cse8 v_ArrVal_1003))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse12 (let ((.cse13 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse13 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse11 (select (select (store .cse12 .cse11 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse17 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse15 (store .cse17 .cse14 v_ArrVal_1003))) (let ((.cse16 (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse14 (select (select (store .cse15 .cse16 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse16)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse18 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse21 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse19 (select (select (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1003))) (store .cse20 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse25 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse23 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse24 (store .cse25 .cse23 v_ArrVal_1003))) (let ((.cse22 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse22)) (= .cse23 (select (select (store .cse24 .cse22 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))) (= |c_ULTIMATE.start_main_~i~0#1| 1))) is different from false [2023-11-24 02:30:27,239 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse4 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse0 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse0)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (let ((.cse3 (store .cse4 .cse0 v_ArrVal_1003))) (let ((.cse2 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse2 (select (select (store .cse3 .cse2 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse6 (let ((.cse7 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse7 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse5 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse5)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (= .cse5 (select (select (store .cse6 .cse5 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse8 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse8 (select (select (let ((.cse9 (store .cse10 .cse8 v_ArrVal_1003))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse12 (let ((.cse13 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse13 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse11 (select (select (store .cse12 .cse11 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse17 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse15 (store .cse17 .cse14 v_ArrVal_1003))) (let ((.cse16 (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse14 (select (select (store .cse15 .cse16 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse16)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))) (= |c_ULTIMATE.start_main_#t~post9#1| 0) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse18 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse21 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse19 (select (select (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1003))) (store .cse20 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse25 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse23 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse24 (store .cse25 .cse23 v_ArrVal_1003))) (let ((.cse22 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse22)) (= .cse23 (select (select (store .cse24 .cse22 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))))) is different from false [2023-11-24 02:30:27,404 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse4 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse0 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse0)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (let ((.cse3 (store .cse4 .cse0 v_ArrVal_1003))) (let ((.cse2 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse2 (select (select (store .cse3 .cse2 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse6 (let ((.cse7 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse7 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse5 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse5)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (= .cse5 (select (select (store .cse6 .cse5 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse8 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse8 (select (select (let ((.cse9 (store .cse10 .cse8 v_ArrVal_1003))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (= |c_ULTIMATE.start_main_~i~0#1| 0) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse12 (let ((.cse13 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse13 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse11 (select (select (store .cse12 .cse11 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse17 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse15 (store .cse17 .cse14 v_ArrVal_1003))) (let ((.cse16 (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse14 (select (select (store .cse15 .cse16 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse16)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse18 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (or (let ((.cse21 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse19 (select (select (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1003))) (store .cse20 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))) (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse25 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse23 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse24 (store .cse25 .cse23 v_ArrVal_1003))) (let ((.cse22 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse22)) (= .cse23 (select (select (store .cse24 .cse22 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse1 |v_ULTIMATE.start_main_#t~mem11#1.base_25|))))))))) is different from false [2023-11-24 02:30:32,684 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse2 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse3 (let ((.cse4 (store .cse2 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse4 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse1 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse1)) (< (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (= (select (select (store .cse3 .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse8 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse9 (store .cse8 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store .cse9 .cse7 v_ArrVal_1003))) (let ((.cse6 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse5 .cse6 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse7)) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse6)) (< (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse10 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (< (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (let ((.cse12 (store .cse10 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse13 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse11 (store .cse12 .cse13 v_ArrVal_1003))) (store .cse11 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse13)))))))) (= |c_ULTIMATE.start_main_~i~0#1| 0) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse15 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse14 (store .cse15 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse14 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))) (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse19 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (let ((.cse16 (let ((.cse18 (store .cse19 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse17 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse16 .cse17 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse17))) (< (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse21 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse24 (store .cse21 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse23 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse24 .cse23 v_ArrVal_1003))) (let ((.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse20)) (< (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (= (select (select (store .cse22 .cse20 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse23)))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse26 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse29 (store .cse26 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse25 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse25)) (< (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (let ((.cse27 (store .cse29 .cse25 v_ArrVal_1003))) (let ((.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse27 .cse28 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse28))))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse30 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (< (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store .cse30 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse34 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse32 (store .cse34 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse33 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse31 (store .cse32 .cse33 v_ArrVal_1003))) (store .cse31 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse33)))) (< (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))))) is different from false [2023-11-24 02:30:33,147 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse2 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse3 (let ((.cse4 (store .cse2 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse4 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse1 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse1)) (< (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (= (select (select (store .cse3 .cse1 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse8 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse9 (store .cse8 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store .cse9 .cse7 v_ArrVal_1003))) (let ((.cse6 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse5 .cse6 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse7)) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse6)) (< (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse10 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (< (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (let ((.cse12 (store .cse10 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse13 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse11 (store .cse12 .cse13 v_ArrVal_1003))) (store .cse11 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse13)))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse15 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (let ((.cse14 (store .cse15 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse14 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (< (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))) (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse19 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (let ((.cse16 (let ((.cse18 (store .cse19 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1003)))) (let ((.cse17 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse16 .cse17 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse17))) (< (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse21 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse24 (store .cse21 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse23 (select (select .cse24 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse24 .cse23 v_ArrVal_1003))) (let ((.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse20)) (< (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (= (select (select (store .cse22 .cse20 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse23)))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse26 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (let ((.cse29 (store .cse26 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse25 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse25)) (< (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (not (let ((.cse27 (store .cse29 .cse25 v_ArrVal_1003))) (let ((.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse27 .cse28 v_ArrVal_1006) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse28))))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse30 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (< (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|) (forall ((v_ArrVal_998 (Array Int Int))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store .cse30 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.base_27| Int)) (or (< .cse0 |v_ULTIMATE.start_main_#t~mem11#1.base_27|) (forall ((v_ArrVal_997 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.base_25| Int)) (let ((.cse34 (store |c_#memory_$Pointer$.base| |v_ULTIMATE.start_main_#t~mem11#1.base_27| v_ArrVal_997))) (or (forall ((v_ArrVal_998 (Array Int Int)) (v_ArrVal_1006 (Array Int Int)) (v_ArrVal_1003 (Array Int Int))) (let ((.cse32 (store .cse34 |v_ULTIMATE.start_main_#t~mem11#1.base_25| v_ArrVal_998))) (let ((.cse33 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse31 (store .cse32 .cse33 v_ArrVal_1003))) (store .cse31 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1006)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse33)))) (< (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |v_ULTIMATE.start_main_#t~mem11#1.base_25|)))))))) is different from false [2023-11-24 02:30:34,018 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 13618394 treesize of output 12638938 [2023-11-24 02:30:41,367 WARN L293 SmtUtils]: Spent 7.33s on a formula simplification. DAG size of input: 7315 DAG size of output: 832 (called from [L 731] de.uni_freiburg.informatik.ultimate.lib.smtlibutils.quantifier.QuantifierPusher.simplify) [2023-11-24 02:30:41,386 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42678 treesize of output 42646 [2023-11-24 02:30:41,738 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42646 treesize of output 42498 [2023-11-24 02:30:42,094 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42498 treesize of output 42414 [2023-11-24 02:30:42,524 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42414 treesize of output 42398 [2023-11-24 02:30:42,885 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42398 treesize of output 42356 [2023-11-24 02:30:43,250 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42356 treesize of output 42346 [2023-11-24 02:30:43,614 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42346 treesize of output 42336 [2023-11-24 02:30:44,006 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42336 treesize of output 42308 [2023-11-24 02:30:44,365 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 42308 treesize of output 40864 [2023-11-24 02:30:44,723 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40864 treesize of output 40384 [2023-11-24 02:30:45,110 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40384 treesize of output 40330 [2023-11-24 02:30:45,467 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40330 treesize of output 40234 [2023-11-24 02:30:45,844 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40234 treesize of output 40156 [2023-11-24 02:30:46,198 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40156 treesize of output 40120 [2023-11-24 02:30:46,674 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40120 treesize of output 40090 [2023-11-24 02:30:47,119 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40090 treesize of output 40034 [2023-11-24 02:30:47,470 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40034 treesize of output 40028 [2023-11-24 02:30:47,824 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40028 treesize of output 40014 [2023-11-24 02:30:48,205 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40014 treesize of output 39998 [2023-11-24 02:30:48,561 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 39998 treesize of output 39974 [2023-11-24 02:30:48,928 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 39974 treesize of output 38184 [2023-11-24 02:30:49,306 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 38184 treesize of output 35220 [2023-11-24 02:30:49,695 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35220 treesize of output 35196 [2023-11-24 02:30:50,053 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35196 treesize of output 35188 [2023-11-24 02:30:50,413 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35188 treesize of output 35180 [2023-11-24 02:30:50,768 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35180 treesize of output 35168 [2023-11-24 02:30:51,147 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35168 treesize of output 35160 [2023-11-24 02:30:51,500 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35160 treesize of output 35152 [2023-11-24 02:30:51,855 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35152 treesize of output 35148 [2023-11-24 02:30:52,213 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35148 treesize of output 35144 [2023-11-24 02:30:52,598 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35144 treesize of output 35136 [2023-11-24 02:30:52,992 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35136 treesize of output 35132 [2023-11-24 02:30:53,349 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35132 treesize of output 35128 [2023-11-24 02:31:13,331 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 28 refuted. 0 times theorem prover too weak. 0 trivial. 91 not checked. [2023-11-24 02:31:13,331 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1957899423] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:31:13,331 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:31:13,331 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [30, 26, 28] total 80 [2023-11-24 02:31:13,332 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [701089940] [2023-11-24 02:31:13,332 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:31:13,333 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 80 states [2023-11-24 02:31:13,333 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:31:13,334 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 80 interpolants. [2023-11-24 02:31:13,336 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=279, Invalid=4156, Unknown=169, NotChecked=1716, Total=6320 [2023-11-24 02:31:13,337 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:31:13,338 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:31:13,339 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 80 states, 80 states have (on average 6.125) internal successors, (490), 80 states have internal predecessors, (490), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:31:13,339 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:31:13,339 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:31:13,340 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:31:13,340 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 20 states. [2023-11-24 02:31:13,340 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:31:53,345 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:31:53,346 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:31:53,346 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:31:53,346 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 20 states. [2023-11-24 02:31:53,346 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 36 states. [2023-11-24 02:31:53,365 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (11)] Forceful destruction successful, exit code 0 [2023-11-24 02:31:53,565 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 11 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable20 [2023-11-24 02:31:53,566 INFO L420 AbstractCegarLoop]: === Iteration 6 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:31:53,566 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:31:53,567 INFO L85 PathProgramCache]: Analyzing trace with hash 1283545380, now seen corresponding path program 2 times [2023-11-24 02:31:53,567 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:31:53,567 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [27072711] [2023-11-24 02:31:53,567 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:31:53,575 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:31:53,637 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:31:55,875 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 119 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:31:55,875 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:31:55,875 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [27072711] [2023-11-24 02:31:55,876 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [27072711] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:31:55,876 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [773527860] [2023-11-24 02:31:55,876 INFO L93 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST1 [2023-11-24 02:31:55,876 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:31:55,876 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:31:55,892 INFO L229 MonitoredProcess]: Starting monitored process 12 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:31:55,953 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (12)] Waiting until timeout for monitored process [2023-11-24 02:31:56,104 INFO L228 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST1 issued 2 check-sat command(s) [2023-11-24 02:31:56,105 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2023-11-24 02:31:56,107 INFO L262 TraceCheckSpWp]: Trace formula consists of 566 conjuncts, 67 conjunts are in the unsatisfiable core [2023-11-24 02:31:56,112 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:31:56,400 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:31:56,400 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 67 treesize of output 60 [2023-11-24 02:31:56,404 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 25 treesize of output 17 [2023-11-24 02:31:56,407 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:56,407 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:31:56,722 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:31:56,722 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:31:56,731 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:56,732 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:31:56,734 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:56,735 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:31:56,995 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:31:56,995 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:31:56,999 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:57,000 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:31:57,003 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:57,003 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:31:57,244 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:31:57,244 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:31:57,248 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:57,249 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:31:57,251 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:31:57,252 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:31:57,464 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 33 treesize of output 9 [2023-11-24 02:31:57,741 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 30 proven. 90 refuted. 0 times theorem prover too weak. 4 trivial. 0 not checked. [2023-11-24 02:31:57,741 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:31:58,398 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|)) (.cse2 (+ |c_ULTIMATE.start_main_#t~mem11#1.offset| (* |c_ULTIMATE.start_main_~i~0#1| 4)))) (and (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse0 (mod (select (select (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse1 .cse2 v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (not (= (+ c_threadThread2of4ForFork0_thidvar0 4294967296) .cse0)) (< .cse0 2147483648)))) (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse3 (mod (select (select (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse1 .cse2 v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (not (= c_threadThread2of4ForFork0_thidvar0 .cse3)) (< 2147483647 .cse3)))))) is different from false [2023-11-24 02:31:58,504 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (select |c_#memory_int| .cse1)) (.cse3 (* |c_ULTIMATE.start_main_~i~0#1| 4)) (.cse4 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (or (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ .cse3 |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (not (= (+ c_threadThread2of4ForFork0_thidvar0 4294967296) .cse0)) (< .cse0 2147483648)))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse4))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (or (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ .cse3 |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (not (= c_threadThread2of4ForFork0_thidvar0 .cse5)) (< 2147483647 .cse5)))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse4)))))) is different from false [2023-11-24 02:32:00,641 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse2 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse3 (select |c_#memory_int| .cse2)) (.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_31| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse0) (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse1 (mod (select (select (store |c_#memory_int| .cse2 (store .cse3 (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< 2147483647 .cse1) (not (= c_threadThread2of4ForFork0_thidvar0 .cse1))))))) (< |v_ULTIMATE.start_main_~i~0#1_31| .cse4))) (forall ((|v_ULTIMATE.start_main_~i~0#1_31| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (or (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int))) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse2 (store .cse3 (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse2 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse2 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< .cse5 2147483648) (not (= .cse5 (+ c_threadThread2of4ForFork0_thidvar0 4294967296)))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse0))) (< |v_ULTIMATE.start_main_~i~0#1_31| .cse4)))))) is different from false [2023-11-24 02:32:00,703 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse2 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (select |c_#memory_int| .cse3))) (and (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse3 (store .cse4 (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< 2147483647 .cse0) (not (= c_threadThread2of4ForFork0_thidvar0 .cse0)) (< |v_ULTIMATE.start_main_~i~0#1_31| .cse1) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse2)))) (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse3 (store .cse4 (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242)) (select (select (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< .cse5 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_31| .cse1) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| .cse2) (not (= .cse5 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))))))))) is different from false [2023-11-24 02:32:01,018 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse0 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse5 (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|)) (.cse6 (+ |c_ULTIMATE.start_main_#t~mem11#1.offset| (* |c_ULTIMATE.start_main_~i~0#1| 4)))) (and (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (v_ArrVal_1238 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse2 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse7 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1240))) (let ((.cse4 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse5 .cse6 v_ArrVal_1238)))) (store .cse3 .cse4 (store (select .cse3 .cse4) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse7 .cse4 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse4 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_31| .cse0) (< .cse1 2147483648) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse1 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))))))) (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (v_ArrVal_1238 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse9 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1241))) (let ((.cse8 (mod (let ((.cse12 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1240))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse10 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse5 .cse6 v_ArrVal_1238)))) (store .cse10 .cse11 (store (select .cse10 .cse11) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse12 .cse11 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse9 .cse11 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse8) (not (= c_threadThread2of4ForFork0_thidvar0 .cse8)) (< |v_ULTIMATE.start_main_~i~0#1_31| .cse0) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))) is different from false [2023-11-24 02:32:06,028 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (select |c_#memory_int| .cse4)) (.cse7 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse8 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_32| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int)) (or (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (v_ArrVal_1238 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse0 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1240))) (let ((.cse3 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse2 (store |c_#memory_int| .cse4 (store .cse5 (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238)))) (store .cse2 .cse3 (store (select .cse2 .cse3) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse6 .cse3 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse0 .cse3 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< 2147483647 .cse1) (not (= c_threadThread2of4ForFork0_thidvar0 .cse1)))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| .cse7))) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse8))) (forall ((|v_ULTIMATE.start_main_~i~0#1_32| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int)) (or (forall ((v_ArrVal_1242 Int) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (v_ArrVal_1238 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int)) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_1241))) (let ((.cse9 (mod (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_1240))) (let ((.cse12 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse11 (store |c_#memory_int| .cse4 (store .cse5 (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238)))) (store .cse11 .cse12 (store (select .cse11 .cse12) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse13 .cse12 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse10 .cse12 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (not (= .cse9 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< .cse9 2147483648) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| .cse7))) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse8)))))) is different from false [2023-11-24 02:32:10,273 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse2 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse8 (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|)) (.cse9 (+ |c_ULTIMATE.start_main_#t~mem11#1.offset| (* |c_ULTIMATE.start_main_~i~0#1| 4)))) (and (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse11 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1234))) (let ((.cse0 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1236)) (.cse7 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse3 (store .cse0 .cse7 v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse10 (store .cse11 .cse7 v_ArrVal_1240))) (let ((.cse5 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse4 (let ((.cse6 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse8 .cse9 v_ArrVal_1235)))) (store .cse6 .cse7 (store (select .cse6 .cse7) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse4 .cse5 (store (select .cse4 .cse5) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse10 .cse5 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse3 .cse5 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse1 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (not (= .cse1 (+ |c_ULTIMATE.start_main_#t~pre10#1| 4294967296))) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse2) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse20 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1234))) (let ((.cse12 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1236)) (.cse18 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse12 .cse18 v_ArrVal_1241))) (let ((.cse13 (mod (let ((.cse19 (store .cse20 .cse18 v_ArrVal_1240))) (let ((.cse16 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse15 (let ((.cse17 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse8 .cse9 v_ArrVal_1235)))) (store .cse17 .cse18 (store (select .cse17 .cse18) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse15 .cse16 (store (select .cse15 .cse16) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse19 .cse16 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse16 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse13 |c_ULTIMATE.start_main_#t~pre10#1|)) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse2) (< 2147483647 .cse13) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) is different from false [2023-11-24 02:32:10,740 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse10 (select |c_#memory_int| .cse9)) (.cse11 (* |c_ULTIMATE.start_main_~i~0#1| 4)) (.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse8 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (store .cse3 .cse8 v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse12 (store .cse13 .cse8 v_ArrVal_1240))) (let ((.cse6 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse5 (let ((.cse7 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_33|) v_ArrVal_1235)))) (store .cse7 .cse8 (store (select .cse7 .cse8) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse12 .cse6 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse6 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse1) (not (= |c_ULTIMATE.start_main_#t~pre10#1| .cse1)) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse4))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse22 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse16 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse16 .cse20 v_ArrVal_1241))) (let ((.cse15 (mod (let ((.cse21 (store .cse22 .cse20 v_ArrVal_1240))) (let ((.cse18 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse17 (let ((.cse19 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_33|) v_ArrVal_1235)))) (store .cse19 .cse20 (store (select .cse19 .cse20) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse17 .cse18 (store (select .cse17 .cse18) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse21 .cse18 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse18 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse15 (+ |c_ULTIMATE.start_main_#t~pre10#1| 4294967296))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse4) (< .cse15 2147483648))))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0)))))) is different from false [2023-11-24 02:32:10,944 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse10 (select |c_#memory_int| .cse9)) (.cse11 (* |c_ULTIMATE.start_main_~i~0#1| 4)) (.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse8 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (store .cse3 .cse8 v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse12 (store .cse13 .cse8 v_ArrVal_1240))) (let ((.cse6 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse5 (let ((.cse7 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_33|) v_ArrVal_1235)))) (store .cse7 .cse8 (store (select .cse7 .cse8) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse12 .cse6 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse6 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse1) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (not (= .cse1 |c_#pthreadsForks|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse4))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse22 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse16 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse15 (store .cse16 .cse20 v_ArrVal_1241))) (let ((.cse14 (mod (let ((.cse21 (store .cse22 .cse20 v_ArrVal_1240))) (let ((.cse18 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse17 (let ((.cse19 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_33|) v_ArrVal_1235)))) (store .cse19 .cse20 (store (select .cse19 .cse20) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse17 .cse18 (store (select .cse17 .cse18) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse21 .cse18 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse15 .cse18 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (not (= (+ 4294967296 |c_#pthreadsForks|) .cse14)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| .cse4) (< .cse14 2147483648))))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0)))))) is different from false [2023-11-24 02:32:13,255 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse8 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse9 (select |c_#memory_int| .cse8)) (.cse12 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_33| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse11 (store |c_#memory_$Pointer$.base| .cse8 v_ArrVal_1234))) (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse8 v_ArrVal_1236)) (.cse7 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (store .cse3 .cse7 v_ArrVal_1241))) (let ((.cse1 (mod (let ((.cse10 (store .cse11 .cse7 v_ArrVal_1240))) (let ((.cse5 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse4 (let ((.cse6 (store |c_#memory_int| .cse8 (store .cse9 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_33| (* |v_ULTIMATE.start_main_~i~0#1_33| 4)) v_ArrVal_1235)))) (store .cse6 .cse7 (store (select .cse6 .cse7) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse4 .cse5 (store (select .cse4 .cse5) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse10 .cse5 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse5 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< .cse1 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| (+ |v_ULTIMATE.start_main_~i~0#1_33| 1)) (not (= .cse1 (+ 4294967296 |c_#pthreadsForks|))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (< |v_ULTIMATE.start_main_~i~0#1_33| .cse12))) (forall ((|v_ULTIMATE.start_main_~i~0#1_33| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse0) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse21 (store |c_#memory_$Pointer$.base| .cse8 v_ArrVal_1234))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse8 v_ArrVal_1236)) (.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse15 .cse19 v_ArrVal_1241))) (let ((.cse13 (mod (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1240))) (let ((.cse17 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse16 (let ((.cse18 (store |c_#memory_int| .cse8 (store .cse9 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_33| (* |v_ULTIMATE.start_main_~i~0#1_33| 4)) v_ArrVal_1235)))) (store .cse18 .cse19 (store (select .cse18 .cse19) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse16 .cse17 (store (select .cse16 .cse17) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse20 .cse17 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse17 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse13) (not (= .cse13 |c_#pthreadsForks|)) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| (+ |v_ULTIMATE.start_main_~i~0#1_33| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (< |v_ULTIMATE.start_main_~i~0#1_33| .cse12)))))) is different from false [2023-11-24 02:32:13,409 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse3 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse10 (select |c_#memory_int| .cse9))) (and (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_33| Int) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse4 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse8 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (store .cse4 .cse8 v_ArrVal_1241))) (let ((.cse0 (mod (let ((.cse11 (store .cse12 .cse8 v_ArrVal_1240))) (let ((.cse6 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse5 (let ((.cse7 (store |c_#memory_int| .cse9 (store .cse10 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_33| (* |v_ULTIMATE.start_main_~i~0#1_33| 4)) v_ArrVal_1235)))) (store .cse7 .cse8 (store (select .cse7 .cse8) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse11 .cse6 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse6 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< .cse0 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_33| .cse1) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| (+ |v_ULTIMATE.start_main_~i~0#1_33| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse3) (not (= .cse0 (+ 4294967296 |c_#pthreadsForks|))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))) (forall ((v_ArrVal_1236 (Array Int Int)) (v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1245 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_33| Int) (v_ArrVal_1244 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_32| Int) (|v_ULTIMATE.start_main_~i~0#1_31| Int) (v_ArrVal_1241 (Array Int Int)) (v_ArrVal_1240 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_29| Int) (v_ArrVal_1242 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_33| Int) (v_ArrVal_1235 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_31| Int) (v_ArrVal_1238 Int)) (let ((.cse21 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1234))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1236)) (.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse15 .cse19 v_ArrVal_1241))) (let ((.cse13 (mod (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1240))) (let ((.cse17 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse16 (let ((.cse18 (store |c_#memory_int| .cse9 (store .cse10 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_33| (* |v_ULTIMATE.start_main_~i~0#1_33| 4)) v_ArrVal_1235)))) (store .cse18 .cse19 (store (select .cse18 .cse19) (+ (* |v_ULTIMATE.start_main_~i~0#1_32| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_31|) v_ArrVal_1238))))) (store .cse16 .cse17 (store (select .cse16 .cse17) (+ (* |v_ULTIMATE.start_main_~i~0#1_31| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_29|) v_ArrVal_1242))) (select (select (store .cse20 .cse17 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse17 v_ArrVal_1245) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse13) (not (= .cse13 |c_#pthreadsForks|)) (< |v_ULTIMATE.start_main_~i~0#1_33| .cse1) (< |v_ULTIMATE.start_main_~i~0#1_31| (+ |v_ULTIMATE.start_main_~i~0#1_32| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_29| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_32| (+ |v_ULTIMATE.start_main_~i~0#1_33| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_33| .cse3) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_31| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) is different from false [2023-11-24 02:32:13,869 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24756 treesize of output 24124 [2023-11-24 02:32:22,321 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24692 treesize of output 24060 [2023-11-24 02:32:58,330 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,333 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,340 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:58,398 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,402 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,409 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,411 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:58,463 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 20518 treesize of output 20342 [2023-11-24 02:32:58,495 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1384 treesize of output 1380 [2023-11-24 02:32:58,506 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1380 treesize of output 1364 [2023-11-24 02:32:58,517 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1364 treesize of output 1356 [2023-11-24 02:32:58,530 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 678 treesize of output 676 [2023-11-24 02:32:58,812 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,816 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,818 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:58,819 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:58,823 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 19 treesize of output 15 [2023-11-24 02:32:58,858 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 23081 treesize of output 22785 [2023-11-24 02:32:58,898 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1830 treesize of output 1822 [2023-11-24 02:32:58,916 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1831 treesize of output 1799 [2023-11-24 02:32:58,934 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1806 treesize of output 1790 [2023-11-24 02:32:58,951 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1113 treesize of output 1109 [2023-11-24 02:32:59,331 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:32:59,331 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,332 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,333 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,372 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24065 treesize of output 23761 [2023-11-24 02:32:59,418 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1836 treesize of output 1828 [2023-11-24 02:32:59,437 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1847 treesize of output 1815 [2023-11-24 02:32:59,454 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1812 treesize of output 1796 [2023-11-24 02:32:59,472 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1570 treesize of output 1554 [2023-11-24 02:32:59,736 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,738 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,739 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,740 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,765 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2596 treesize of output 2476 [2023-11-24 02:32:59,783 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 914 treesize of output 912 [2023-11-24 02:32:59,793 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 912 treesize of output 904 [2023-11-24 02:32:59,804 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 904 treesize of output 900 [2023-11-24 02:32:59,816 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 900 treesize of output 884 [2023-11-24 02:32:59,903 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,904 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,906 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,907 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,923 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,924 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,925 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,926 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:32:59,963 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2564 treesize of output 2444 [2023-11-24 02:32:59,979 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 446 treesize of output 444 [2023-11-24 02:32:59,990 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 444 treesize of output 436 [2023-11-24 02:33:00,001 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 436 treesize of output 432 [2023-11-24 02:33:00,015 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 451 treesize of output 435 [2023-11-24 02:33:00,182 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:00,189 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 6683 treesize of output 6547 [2023-11-24 02:33:00,205 WARN L214 Elim1Store]: Array PQE input equivalent to true [2023-11-24 02:33:00,208 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:00,208 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:00,209 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:00,209 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:00,250 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 8879 treesize of output 8615 [2023-11-24 02:33:00,284 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1364 treesize of output 1348 [2023-11-24 02:33:00,301 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 885 treesize of output 869 [2023-11-24 02:33:00,316 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1332 treesize of output 1324 [2023-11-24 02:33:00,333 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 911 treesize of output 879 [2023-11-24 02:33:00,878 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 23081 treesize of output 22785 [2023-11-24 02:33:00,918 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1830 treesize of output 1822 [2023-11-24 02:33:00,937 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1133 treesize of output 1129 [2023-11-24 02:33:00,954 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1829 treesize of output 1797 [2023-11-24 02:33:00,969 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1802 treesize of output 1786 [2023-11-24 02:33:01,200 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,203 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,205 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,211 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 274 treesize of output 266 [2023-11-24 02:33:01,218 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 12 treesize of output 10 [2023-11-24 02:33:01,252 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,254 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,257 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,259 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,265 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 13 treesize of output 9 [2023-11-24 02:33:01,277 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,278 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,279 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,280 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,283 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,284 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,284 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,284 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,288 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,288 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,288 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,289 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:01,301 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,331 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 328 treesize of output 326 [2023-11-24 02:33:01,340 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 654 treesize of output 646 [2023-11-24 02:33:01,350 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 322 treesize of output 320 [2023-11-24 02:33:01,360 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 323 treesize of output 319 [2023-11-24 02:33:01,428 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,431 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,435 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:01,449 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 69 treesize of output 67 [2023-11-24 02:33:01,460 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 67 treesize of output 65 [2023-11-24 02:33:01,643 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 30380 treesize of output 29932 [2023-11-24 02:33:01,712 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2753 treesize of output 2733 [2023-11-24 02:33:01,739 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2270 treesize of output 2246 [2023-11-24 02:33:01,761 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2491 treesize of output 2469 [2023-11-24 02:33:01,800 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2288 treesize of output 2240 [2023-11-24 02:33:02,201 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 5158 treesize of output 5030 [2023-11-24 02:33:02,218 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1018 treesize of output 1010 [2023-11-24 02:33:02,230 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 511 treesize of output 497 [2023-11-24 02:33:02,240 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 996 treesize of output 992 [2023-11-24 02:33:02,250 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 992 treesize of output 976 [2023-11-24 02:33:02,426 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,429 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,431 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,432 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,459 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,465 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,616 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,619 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,621 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,622 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,650 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,651 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,653 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,655 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,686 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 10278 treesize of output 10134 [2023-11-24 02:33:02,711 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1184 treesize of output 1172 [2023-11-24 02:33:02,722 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1172 treesize of output 1156 [2023-11-24 02:33:02,736 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 580 treesize of output 574 [2023-11-24 02:33:02,748 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1150 treesize of output 1142 [2023-11-24 02:33:02,941 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:33:02,944 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,946 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:02,989 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2564 treesize of output 2444 [2023-11-24 02:33:03,003 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 446 treesize of output 444 [2023-11-24 02:33:03,023 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 444 treesize of output 436 [2023-11-24 02:33:03,033 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 436 treesize of output 432 [2023-11-24 02:33:03,045 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 451 treesize of output 435 [2023-11-24 02:33:03,214 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,214 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,215 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,215 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,238 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,239 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,240 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,241 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,256 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,256 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,257 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,257 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,272 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,274 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,274 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,276 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,290 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,292 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,293 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,294 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,308 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,309 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,309 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,310 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,321 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,321 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,322 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,322 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,337 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,339 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,340 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,341 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,357 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,358 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,359 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,360 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:33:03,389 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse12 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse77 (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse12))) (let ((.cse0 (not .cse77)) (.cse83 (= |c_ULTIMATE.start_main_~i~0#1| 0)) (.cse31 (forall ((v_ArrVal_1232 (Array Int Int))) (= |c_ULTIMATE.start_main_~#tids~0#1.base| (select (select (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (.cse107 (+ 2 |c_ULTIMATE.start_main_~i~0#1|)) (.cse8 (< 0 (+ 3 |c_ULTIMATE.start_main_~i~0#1|))) (.cse1 (< 0 (+ |c_#pthreadsForks| 1))) (.cse2 (< (+ |c_#pthreadsForks| 2147483648) 0)) (.cse33 (mod |c_ULTIMATE.start_main_#t~pre10#1| 4294967296))) (let ((.cse7 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (not (let ((.cse137 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse138 (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse135 (let ((.cse136 (store .cse137 .cse138 v_ArrVal_1234))) (store .cse136 (select (select .cse136 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (store .cse135 (select (select .cse135 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse138)))))) (.cse32 (< .cse33 2147483648)) (.cse38 (or .cse1 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse132 (let ((.cse133 (let ((.cse134 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse134 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse133 (select (select .cse133 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse131 (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse131 (select (select (store .cse132 .cse131 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) .cse2)) (.cse34 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse129 (let ((.cse130 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse130 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse128 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse129 .cse128 v_ArrVal_1240))) (let ((.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse126 .cse127 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse128) (not (= .cse127 |c_ULTIMATE.start_main_~#tids~0#1.base|))))))))) (.cse23 (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse124 (let ((.cse125 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse125 (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse121 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse123 (store .cse124 .cse121 v_ArrVal_1240))) (let ((.cse122 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (select (select (store .cse123 .cse122 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse120 .cse121) (not (= .cse122 .cse120))))))))) .cse8)) (.cse24 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse117 (let ((.cse118 (let ((.cse119 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse119 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse118 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse116 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse116 (select (select (store .cse117 .cse116 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|))))))) (.cse25 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (not (let ((.cse113 (let ((.cse114 (let ((.cse115 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse115 (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse114 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse112 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse112 (select (select (store .cse113 .cse112 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) (.cse37 (<= 0 .cse107)) (.cse3 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (not (let ((.cse109 (let ((.cse111 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse111 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse108 (store .cse109 .cse110 v_ArrVal_1240))) (store .cse108 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse110)))))) (.cse4 (< 0 .cse107)) (.cse5 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse105 (let ((.cse106 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse106 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse104 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse102 (store .cse105 .cse104 v_ArrVal_1240))) (let ((.cse103 (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse102 .cse103 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse104)) (not (= .cse103 |c_ULTIMATE.start_main_~#tids~0#1.base|))))))))) (.cse6 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse101 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse100 (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse99 (store .cse101 .cse100 v_ArrVal_1234))) (let ((.cse97 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|)) (not (= (select (select (let ((.cse98 (store .cse99 .cse97 v_ArrVal_1240))) (store .cse98 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse100))))))))) (.cse51 (or .cse31 .cse8)) (.cse17 (and .cse0 .cse83))) (and (or .cse0 .cse1 .cse2 (and (or .cse3 .cse4) .cse5)) (or .cse1 .cse2 (and .cse6 (or .cse7 .cse8))) (or .cse1 .cse2 (and (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (= (select (select (let ((.cse9 (let ((.cse10 (let ((.cse11 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse11 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse10 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse14 (let ((.cse16 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse16 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse15 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse13 (store .cse14 .cse15 v_ArrVal_1240))) (store .cse13 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse15)))))) (or .cse1 .cse2 .cse17) (or .cse1 .cse2 (and .cse0 (<= 0 |c_ULTIMATE.start_main_~i~0#1|)) (and (or (< 0 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) .cse7) (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse22 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (let ((.cse21 (store .cse22 .cse20 v_ArrVal_1234))) (store .cse21 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse19 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse18 .cse19 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse20)) (not (= .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|)))))))))) (or (and .cse23 .cse24 (or .cse25 .cse8)) .cse1 .cse2) (or .cse1 .cse2 (and (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse29 (let ((.cse30 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse30 (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse27 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse26 (select (select (let ((.cse28 (store .cse29 .cse27 v_ArrVal_1240))) (store .cse28 (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse26 .cse27)) (= .cse26 .cse12)))))) .cse4) (or .cse4 .cse31))) (or .cse32 (not (= .cse33 (+ 4294967296 |c_#pthreadsForks|)))) (or .cse32 (and (or .cse1 .cse2 (and .cse34 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (not (= (select (select (let ((.cse35 (let ((.cse36 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse36 (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse35 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |c_ULTIMATE.start_main_~#tids~0#1.base|))) .cse37)) .cse38)) (or (and .cse23 (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1232 (Array Int Int))) (= (select (select (let ((.cse39 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse39 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |c_ULTIMATE.start_main_~#tids~0#1.base|)) .cse8) (or (and (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse44 (let ((.cse45 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse45 (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (let ((.cse40 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse43 (store .cse44 .cse40 v_ArrVal_1240))) (let ((.cse41 (select (select .cse43 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse42 (select (select (store .cse43 .cse41 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|)) (not (= .cse41 .cse42)) (= .cse42 .cse12)))))))) (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse48 (let ((.cse49 (let ((.cse50 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse50 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse49 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse46 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse47 (select (select (store .cse48 .cse46 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse46 .cse47)) (= .cse47 .cse12))))))) .cse8) .cse51) .cse1 .cse2) (or .cse32 (and .cse38 (or .cse1 .cse2 (and .cse34 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse53 (let ((.cse54 (let ((.cse55 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse55 (select (select .cse55 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse54 (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse52 (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|)) (= (select (select (store .cse53 .cse52 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12))))))))) (or .cse1 .cse2 (and .cse23 (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse60 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse59 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse58 (store .cse60 .cse59 v_ArrVal_1234))) (let ((.cse56 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) (= (select (select (let ((.cse57 (store .cse58 .cse56 v_ArrVal_1240))) (store .cse57 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse59))))))) .cse8) (or .cse8 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse63 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (let ((.cse65 (store .cse66 .cse63 v_ArrVal_1234))) (store .cse65 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse61 (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse62 (select (select (store .cse64 .cse61 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse61 .cse62)) (= .cse62 .cse63))))))))) (or (and (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse70 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse71 (select (select .cse70 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse68 (let ((.cse69 (store .cse70 .cse71 v_ArrVal_1234))) (store .cse69 (select (select .cse69 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse67 (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse67 (select (select (store .cse68 .cse67 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse71)))))) .cse8) (forall ((v_ArrVal_1232 (Array Int Int))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse76 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse73 (let ((.cse74 (store .cse75 .cse76 v_ArrVal_1234))) (store .cse74 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse72 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse72 (select (select (store .cse73 .cse72 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|)))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse76)))))) (or (and .cse24 .cse25 .cse31) .cse8) .cse77) (and .cse0 .cse37)))) (or .cse1 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse79 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (select (select (let ((.cse80 (let ((.cse81 (store .cse82 .cse79 v_ArrVal_1234))) (store .cse81 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (store .cse80 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse78 .cse79)) (= .cse78 .cse12)))))) .cse2 .cse8) (or .cse1 .cse2 (and (or .cse0 .cse3 .cse4) (or .cse77 .cse4) .cse5)) (or (and .cse6 .cse51) .cse1 .cse2) (or (< 2147483647 |c_#pthreadsForks|) .cse17 (< |c_#pthreadsForks| 0)) (or (< 2147483647 .cse33) (and (or (not .cse83) (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (not (= (select (select (let ((.cse84 (let ((.cse85 (let ((.cse86 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse86 (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse85 (select (select .cse85 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (store .cse84 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)))) (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse87 (let ((.cse89 (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (store .cse90 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1234)))) (store .cse89 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1240)))) (let ((.cse88 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (select (select (store .cse87 .cse88 v_ArrVal_1244) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (not (= .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|))))))) (not (= .cse33 |c_#pthreadsForks|))) (or .cse1 .cse2 (forall ((v_ArrVal_1234 (Array Int Int)) (v_ArrVal_1244 (Array Int Int)) (v_ArrVal_1232 (Array Int Int)) (v_ArrVal_1240 (Array Int Int))) (let ((.cse96 (store |c_#memory_$Pointer$.base| .cse12 v_ArrVal_1232))) (let ((.cse93 (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (store .cse96 .cse93 v_ArrVal_1234))) (let ((.cse92 (select (select .cse95 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (select (select (let ((.cse94 (store .cse95 .cse92 v_ArrVal_1240))) (store .cse94 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_1244)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse91 .cse92)) (= .cse91 .cse93)))))))) .cse8)))))) is different from false [2023-11-24 02:33:04,965 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 17 treesize of output 9 [2023-11-24 02:33:05,786 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 14 proven. 11 refuted. 0 times theorem prover too weak. 4 trivial. 95 not checked. [2023-11-24 02:33:05,786 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [773527860] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:33:05,786 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:33:05,786 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [30, 25, 27] total 78 [2023-11-24 02:33:05,787 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [2136581485] [2023-11-24 02:33:05,787 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:33:05,787 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 78 states [2023-11-24 02:33:05,787 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:33:05,788 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 78 interpolants. [2023-11-24 02:33:05,790 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=343, Invalid=3954, Unknown=41, NotChecked=1668, Total=6006 [2023-11-24 02:33:05,790 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:33:05,790 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:33:05,791 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 78 states, 78 states have (on average 6.0256410256410255) internal successors, (470), 78 states have internal predecessors, (470), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 20 states. [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 36 states. [2023-11-24 02:33:05,791 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:07,324 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:07,324 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:07,324 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:07,324 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 21 states. [2023-11-24 02:36:07,326 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 36 states. [2023-11-24 02:36:07,326 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 45 states. [2023-11-24 02:36:07,338 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (12)] Forceful destruction successful, exit code 0 [2023-11-24 02:36:07,538 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable21,12 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:36:07,538 INFO L420 AbstractCegarLoop]: === Iteration 7 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:07,539 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:07,539 INFO L85 PathProgramCache]: Analyzing trace with hash -1593493595, now seen corresponding path program 1 times [2023-11-24 02:36:07,539 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:07,540 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [134868604] [2023-11-24 02:36:07,540 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:07,540 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:07,565 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:07,845 INFO L134 CoverageAnalysis]: Checked inductivity of 55 backedges. 2 proven. 53 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:07,845 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:07,845 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [134868604] [2023-11-24 02:36:07,845 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [134868604] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:36:07,845 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [55623017] [2023-11-24 02:36:07,845 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:07,845 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:36:07,845 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:36:07,848 INFO L229 MonitoredProcess]: Starting monitored process 13 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:36:07,849 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (13)] Waiting until timeout for monitored process [2023-11-24 02:36:08,012 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:08,014 INFO L262 TraceCheckSpWp]: Trace formula consists of 409 conjuncts, 9 conjunts are in the unsatisfiable core [2023-11-24 02:36:08,015 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:36:08,714 INFO L134 CoverageAnalysis]: Checked inductivity of 55 backedges. 19 proven. 36 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:08,714 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:36:09,344 INFO L134 CoverageAnalysis]: Checked inductivity of 55 backedges. 19 proven. 36 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:09,344 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [55623017] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:36:09,344 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:36:09,345 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [10, 10, 10] total 15 [2023-11-24 02:36:09,345 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [555688092] [2023-11-24 02:36:09,345 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:36:09,345 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 15 states [2023-11-24 02:36:09,345 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:36:09,348 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 15 interpolants. [2023-11-24 02:36:09,348 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=45, Invalid=165, Unknown=0, NotChecked=0, Total=210 [2023-11-24 02:36:09,348 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:09,348 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:36:09,349 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 15 states, 15 states have (on average 15.4) internal successors, (231), 15 states have internal predecessors, (231), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 21 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 36 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 45 states. [2023-11-24 02:36:09,349 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:15,737 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:15,737 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:15,737 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:15,737 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 21 states. [2023-11-24 02:36:15,738 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 36 states. [2023-11-24 02:36:15,738 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 45 states. [2023-11-24 02:36:15,738 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 14 states. [2023-11-24 02:36:15,738 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:36:15,753 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (13)] Forceful destruction successful, exit code 0 [2023-11-24 02:36:15,938 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 13 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable22 [2023-11-24 02:36:15,941 INFO L445 BasicCegarLoop]: Path program histogram: [2, 1, 1, 1, 1, 1] [2023-11-24 02:36:15,941 INFO L307 ceAbstractionStarter]: Result for error location threadThread3of4ForFork0 was SAFE (1/5) [2023-11-24 02:36:15,942 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:36:15,942 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:36:15,943 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:36:15,947 INFO L229 MonitoredProcess]: Starting monitored process 14 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:36:15,955 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:36:15,955 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of4ForFork0 ======== [2023-11-24 02:36:15,955 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@322f7c3e, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:36:15,955 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:36:15,957 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (14)] Waiting until timeout for monitored process [2023-11-24 02:36:16,021 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:16,021 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:16,021 INFO L85 PathProgramCache]: Analyzing trace with hash 621622913, now seen corresponding path program 1 times [2023-11-24 02:36:16,021 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:16,021 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1022984023] [2023-11-24 02:36:16,022 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:16,022 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:16,028 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:16,035 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:16,036 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:16,036 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1022984023] [2023-11-24 02:36:16,036 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1022984023] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:36:16,036 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:36:16,036 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:36:16,036 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1690510273] [2023-11-24 02:36:16,036 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:36:16,037 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:36:16,037 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:36:16,037 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:36:16,037 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:36:16,037 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,038 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:36:16,038 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 24.0) internal successors, (48), 2 states have internal predecessors, (48), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:36:16,038 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,050 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,050 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable23 [2023-11-24 02:36:16,050 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:16,050 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:16,050 INFO L85 PathProgramCache]: Analyzing trace with hash 1341316140, now seen corresponding path program 1 times [2023-11-24 02:36:16,050 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:16,051 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1523222100] [2023-11-24 02:36:16,051 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:16,051 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:16,057 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:16,190 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:16,190 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:16,190 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1523222100] [2023-11-24 02:36:16,191 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1523222100] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:36:16,191 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:36:16,191 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:36:16,191 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1969210838] [2023-11-24 02:36:16,191 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:36:16,191 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:36:16,191 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:36:16,191 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:36:16,191 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:36:16,191 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,192 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:36:16,192 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.5) internal successors, (47), 3 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:36:16,192 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,192 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,718 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,718 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:16,719 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable24 [2023-11-24 02:36:16,719 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:16,719 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:16,719 INFO L85 PathProgramCache]: Analyzing trace with hash -911329568, now seen corresponding path program 1 times [2023-11-24 02:36:16,719 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:16,719 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [2096031764] [2023-11-24 02:36:16,719 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:16,719 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:16,729 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:16,775 INFO L134 CoverageAnalysis]: Checked inductivity of 35 backedges. 20 proven. 0 refuted. 0 times theorem prover too weak. 15 trivial. 0 not checked. [2023-11-24 02:36:16,776 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:16,776 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [2096031764] [2023-11-24 02:36:16,776 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [2096031764] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:36:16,776 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:36:16,776 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:36:16,776 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1874605149] [2023-11-24 02:36:16,776 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:36:16,777 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:36:16,777 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:36:16,777 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:36:16,778 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:36:16,778 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,778 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:36:16,778 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 24.333333333333332) internal successors, (73), 3 states have internal predecessors, (73), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:36:16,778 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:16,778 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:16,778 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:17,017 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:17,017 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:17,017 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:17,018 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable25 [2023-11-24 02:36:17,018 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:17,018 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:17,018 INFO L85 PathProgramCache]: Analyzing trace with hash 2110753217, now seen corresponding path program 1 times [2023-11-24 02:36:17,018 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:17,018 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1705782660] [2023-11-24 02:36:17,018 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:17,018 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:17,032 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:17,152 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 0 proven. 46 refuted. 0 times theorem prover too weak. 60 trivial. 0 not checked. [2023-11-24 02:36:17,152 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:17,152 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1705782660] [2023-11-24 02:36:17,152 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1705782660] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:36:17,152 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1143646985] [2023-11-24 02:36:17,152 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:17,152 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:36:17,152 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:36:17,153 INFO L229 MonitoredProcess]: Starting monitored process 15 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:36:17,184 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (15)] Waiting until timeout for monitored process [2023-11-24 02:36:17,327 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:17,328 INFO L262 TraceCheckSpWp]: Trace formula consists of 370 conjuncts, 10 conjunts are in the unsatisfiable core [2023-11-24 02:36:17,329 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:36:17,870 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 54 proven. 52 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:17,870 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:36:18,435 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 54 proven. 52 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:36:18,435 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1143646985] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:36:18,436 INFO L185 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2023-11-24 02:36:18,436 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 11, 11] total 22 [2023-11-24 02:36:18,436 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [39852990] [2023-11-24 02:36:18,436 INFO L85 oduleStraightlineAll]: Using 3 imperfect interpolants to construct interpolant automaton [2023-11-24 02:36:18,436 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 22 states [2023-11-24 02:36:18,436 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2023-11-24 02:36:18,437 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 22 interpolants. [2023-11-24 02:36:18,437 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=93, Invalid=369, Unknown=0, NotChecked=0, Total=462 [2023-11-24 02:36:18,437 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:18,437 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:36:18,437 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 22 states, 22 states have (on average 10.363636363636363) internal successors, (228), 22 states have internal predecessors, (228), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:36:18,437 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:18,437 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:18,437 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:18,437 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:22,044 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:36:22,045 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:22,045 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:36:22,045 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 20 states. [2023-11-24 02:36:22,059 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (15)] Ended with exit code 0 [2023-11-24 02:36:22,257 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 15 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable26 [2023-11-24 02:36:22,257 INFO L420 AbstractCegarLoop]: === Iteration 5 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:36:22,257 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:36:22,258 INFO L85 PathProgramCache]: Analyzing trace with hash -384766048, now seen corresponding path program 1 times [2023-11-24 02:36:22,258 INFO L118 FreeRefinementEngine]: Executing refinement strategy CAMEL [2023-11-24 02:36:22,258 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1129977546] [2023-11-24 02:36:22,258 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:22,258 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2023-11-24 02:36:22,296 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:26,330 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 24 proven. 96 refuted. 0 times theorem prover too weak. 4 trivial. 0 not checked. [2023-11-24 02:36:26,330 INFO L136 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2023-11-24 02:36:26,330 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1129977546] [2023-11-24 02:36:26,330 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1129977546] provided 0 perfect and 1 imperfect interpolant sequences [2023-11-24 02:36:26,330 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1000296150] [2023-11-24 02:36:26,330 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:36:26,330 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2023-11-24 02:36:26,330 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:36:26,331 INFO L229 MonitoredProcess]: Starting monitored process 16 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2023-11-24 02:36:26,332 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (16)] Waiting until timeout for monitored process [2023-11-24 02:36:26,525 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:36:26,527 INFO L262 TraceCheckSpWp]: Trace formula consists of 566 conjuncts, 65 conjunts are in the unsatisfiable core [2023-11-24 02:36:26,530 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:36:27,258 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:36:27,259 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 67 treesize of output 60 [2023-11-24 02:36:27,264 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 25 treesize of output 17 [2023-11-24 02:36:27,271 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:27,271 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:36:28,022 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:36:28,022 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:36:28,030 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:28,031 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:36:28,037 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:28,038 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:36:28,825 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:36:28,825 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:36:28,838 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:28,838 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:36:28,845 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:28,846 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:36:29,482 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:36:29,482 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 94 treesize of output 83 [2023-11-24 02:36:29,493 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:29,493 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 53 treesize of output 21 [2023-11-24 02:36:29,503 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:36:29,503 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 34 treesize of output 21 [2023-11-24 02:36:29,879 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 25 treesize of output 17 [2023-11-24 02:36:30,133 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 25 treesize of output 9 [2023-11-24 02:36:30,410 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 30 proven. 90 refuted. 0 times theorem prover too weak. 4 trivial. 0 not checked. [2023-11-24 02:36:30,410 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:36:34,951 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (select |c_#memory_int| .cse1)) (.cse3 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_48| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int)) (or (forall ((v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int))) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< .cse0 2147483648) (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296)))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| .cse3))) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse4))) (forall ((|v_ULTIMATE.start_main_~i~0#1_48| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int)) (or (forall ((v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int))) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse1 (store .cse2 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860)) (select (select (store |c_#memory_$Pointer$.base| .cse1 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse1 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< 2147483647 .cse5) (not (= c_threadThread2of4ForFork0_thidvar0 .cse5))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| .cse3))) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse4)))))) is different from false [2023-11-24 02:36:35,018 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse2 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse4 (select |c_#memory_int| .cse3))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int)) (let ((.cse0 (mod (select (select (store |c_#memory_int| .cse3 (store .cse4 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860)) (select (select (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< .cse0 2147483648) (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| .cse1) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse2)))) (forall ((|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int)) (let ((.cse5 (mod (select (select (store |c_#memory_int| .cse3 (store .cse4 (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860)) (select (select (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) 4294967296))) (or (< 2147483647 .cse5) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| .cse1) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse2) (not (= c_threadThread2of4ForFork0_thidvar0 .cse5)))))))) is different from false [2023-11-24 02:36:35,311 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse2 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse5 (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|)) (.cse6 (+ |c_ULTIMATE.start_main_#t~mem11#1.offset| (* |c_ULTIMATE.start_main_~i~0#1| 4)))) (and (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse1 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1856))) (let ((.cse0 (mod (let ((.cse7 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1858))) (let ((.cse4 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse5 .cse6 v_ArrVal_1859)))) (store .cse3 .cse4 (store (select .cse3 .cse4) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse7 .cse4 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse1 .cse4 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (not (= .cse0 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< .cse0 2147483648) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse2))))) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse9 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1856))) (let ((.cse8 (mod (let ((.cse12 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_1858))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse10 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store .cse5 .cse6 v_ArrVal_1859)))) (store .cse10 .cse11 (store (select .cse10 .cse11) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse12 .cse11 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse9 .cse11 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< 2147483647 .cse8) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse2) (not (= c_threadThread2of4ForFork0_thidvar0 .cse8)))))))) is different from false [2023-11-24 02:36:35,717 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse7 (select |c_#memory_int| .cse6)) (.cse8 (* |c_ULTIMATE.start_main_~i~0#1| 4))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse1 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_1856))) (let ((.cse2 (mod (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_1858))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse4 (store |c_#memory_int| .cse6 (store .cse7 (+ .cse8 |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse9 .cse5 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse1 .cse5 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= c_threadThread2of4ForFork0_thidvar0 .cse2)) (< 2147483647 .cse2) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse3))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse11 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_1856))) (let ((.cse10 (mod (let ((.cse14 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_1858))) (let ((.cse13 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse12 (store |c_#memory_int| .cse6 (store .cse7 (+ .cse8 |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse12 .cse13 (store (select .cse12 .cse13) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse14 .cse13 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse11 .cse13 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (not (= (+ c_threadThread2of4ForFork0_thidvar0 4294967296) .cse10)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse10 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_48| .cse3)))))))))) is different from false [2023-11-24 02:36:38,087 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse6 (select |c_#memory_int| .cse5)) (.cse8 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_49| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_1856))) (let ((.cse1 (mod (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_1858))) (let ((.cse4 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (store |c_#memory_int| .cse5 (store .cse6 (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse3 .cse4 (store (select .cse3 .cse4) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse7 .cse4 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse4 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (not (= c_threadThread2of4ForFork0_thidvar0 .cse1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< 2147483647 .cse1))))))) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse8))) (forall ((|v_ULTIMATE.start_main_~i~0#1_49| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_1856))) (let ((.cse9 (mod (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_1858))) (let ((.cse12 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse11 (store |c_#memory_int| .cse5 (store .cse6 (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse11 .cse12 (store (select .cse11 .cse12) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse13 .cse12 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse10 .cse12 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< .cse9 2147483648) (not (= .cse9 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)))))))) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse8)))))) is different from false [2023-11-24 02:36:38,219 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse7 (select |c_#memory_int| .cse6))) (and (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_1856))) (let ((.cse1 (mod (let ((.cse8 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_1858))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse4 (store |c_#memory_int| .cse6 (store .cse7 (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse8 .cse5 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse5 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (not (= c_threadThread2of4ForFork0_thidvar0 .cse1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< 2147483647 .cse1) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse3))))) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1860 Int) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_1856))) (let ((.cse9 (mod (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_1858))) (let ((.cse12 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse11 (store |c_#memory_int| .cse6 (store .cse7 (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859)))) (store .cse11 .cse12 (store (select .cse11 .cse12) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse13 .cse12 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse10 .cse12 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| .cse0) (< .cse9 2147483648) (not (= .cse9 (+ c_threadThread2of4ForFork0_thidvar0 4294967296))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse3)))))))) is different from false [2023-11-24 02:36:43,243 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse10 (select |c_#memory_int| .cse9)) (.cse11 (* |c_ULTIMATE.start_main_~i~0#1| 4)) (.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse0) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1853))) (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1854)) (.cse8 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (store .cse3 .cse8 v_ArrVal_1856))) (let ((.cse2 (mod (let ((.cse12 (store .cse13 .cse8 v_ArrVal_1858))) (let ((.cse6 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse5 (let ((.cse7 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse7 .cse8 (store (select .cse7 .cse8) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse12 .cse6 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse1 .cse6 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< 2147483647 .cse2) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse2 |c_ULTIMATE.start_main_#t~pre10#1|)) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse4))))))))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse22 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1853))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1854)) (.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse15 .cse20 v_ArrVal_1856))) (let ((.cse16 (mod (let ((.cse21 (store .cse22 .cse20 v_ArrVal_1858))) (let ((.cse18 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse17 (let ((.cse19 (store |c_#memory_int| .cse9 (store .cse10 (+ .cse11 |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse19 .cse20 (store (select .cse19 .cse20) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse17 .cse18 (store (select .cse17 .cse18) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse21 .cse18 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse18 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< .cse16 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse4) (not (= .cse16 (+ |c_ULTIMATE.start_main_#t~pre10#1| 4294967296))))))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse0)))))) is different from false [2023-11-24 02:36:43,533 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse8 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse9 (select |c_#memory_int| .cse8)) (.cse10 (* |c_ULTIMATE.start_main_~i~0#1| 4))) (and (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse8 v_ArrVal_1853))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse8 v_ArrVal_1854)) (.cse7 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (store .cse2 .cse7 v_ArrVal_1856))) (let ((.cse1 (mod (let ((.cse11 (store .cse12 .cse7 v_ArrVal_1858))) (let ((.cse5 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse4 (let ((.cse6 (store |c_#memory_int| .cse8 (store .cse9 (+ .cse10 |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse6 .cse7 (store (select .cse6 .cse7) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse4 .cse5 (store (select .cse4 .cse5) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse11 .cse5 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse0 .cse5 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< 2147483647 .cse1) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse1 |c_#pthreadsForks|)) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse3))))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse13))) (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse13) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse22 (store |c_#memory_$Pointer$.base| .cse8 v_ArrVal_1853))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse8 v_ArrVal_1854)) (.cse20 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse15 .cse20 v_ArrVal_1856))) (let ((.cse16 (mod (let ((.cse21 (store .cse22 .cse20 v_ArrVal_1858))) (let ((.cse18 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse17 (let ((.cse19 (store |c_#memory_int| .cse8 (store .cse9 (+ .cse10 |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse19 .cse20 (store (select .cse19 .cse20) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse17 .cse18 (store (select .cse17 .cse18) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse21 .cse18 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse14 .cse18 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (not (= .cse16 (+ 4294967296 |c_#pthreadsForks|))) (< .cse16 2147483648) (< |v_ULTIMATE.start_main_~i~0#1_49| .cse3)))))))))))) is different from false [2023-11-24 02:36:45,962 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse7 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse8 (select |c_#memory_int| .cse7)) (.cse12 (+ |c_ULTIMATE.start_main_#t~post9#1| 1))) (and (forall ((|v_ULTIMATE.start_main_~i~0#1_50| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_1853))) (let ((.cse1 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_1854)) (.cse6 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (store .cse1 .cse6 v_ArrVal_1856))) (let ((.cse2 (mod (let ((.cse9 (store .cse10 .cse6 v_ArrVal_1858))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (let ((.cse5 (store |c_#memory_int| .cse7 (store .cse8 (+ (* |v_ULTIMATE.start_main_~i~0#1_50| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse3 .cse4 (store (select .cse3 .cse4) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse9 .cse4 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse0 .cse4 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_49| (+ |v_ULTIMATE.start_main_~i~0#1_50| 1)) (not (= .cse2 (+ 4294967296 |c_#pthreadsForks|))) (< .cse2 2147483648))))))) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse11))) (< |v_ULTIMATE.start_main_~i~0#1_50| .cse12))) (forall ((|v_ULTIMATE.start_main_~i~0#1_50| Int)) (or (forall ((|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int)) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse11) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse21 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_1853))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_1854)) (.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse15 .cse19 v_ArrVal_1856))) (let ((.cse14 (mod (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1858))) (let ((.cse17 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse16 (let ((.cse18 (store |c_#memory_int| .cse7 (store .cse8 (+ (* |v_ULTIMATE.start_main_~i~0#1_50| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse18 .cse19 (store (select .cse18 .cse19) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse16 .cse17 (store (select .cse16 .cse17) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse20 .cse17 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse13 .cse17 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< 2147483647 .cse14) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_49| (+ |v_ULTIMATE.start_main_~i~0#1_50| 1)) (not (= .cse14 |c_#pthreadsForks|)))))))))) (< |v_ULTIMATE.start_main_~i~0#1_50| .cse12)))))) is different from false [2023-11-24 02:36:46,244 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse0 (+ |c_ULTIMATE.start_main_~i~0#1| 1)) (.cse3 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse10 (select |c_#memory_int| .cse9))) (and (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_50| Int) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1853))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1854)) (.cse8 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (store .cse2 .cse8 v_ArrVal_1856))) (let ((.cse4 (mod (let ((.cse11 (store .cse12 .cse8 v_ArrVal_1858))) (let ((.cse6 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse5 (let ((.cse7 (store |c_#memory_int| .cse9 (store .cse10 (+ (* |v_ULTIMATE.start_main_~i~0#1_50| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse7 .cse8 (store (select .cse7 .cse8) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse5 .cse6 (store (select .cse5 .cse6) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse11 .cse6 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse1 .cse6 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_50| .cse0) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse3) (< |v_ULTIMATE.start_main_~i~0#1_49| (+ |v_ULTIMATE.start_main_~i~0#1_50| 1)) (not (= .cse4 (+ 4294967296 |c_#pthreadsForks|))) (< .cse4 2147483648))))))) (forall ((v_ArrVal_1859 Int) (v_ArrVal_1856 (Array Int Int)) (v_ArrVal_1854 (Array Int Int)) (v_ArrVal_1853 (Array Int Int)) (v_ArrVal_1863 (Array Int Int)) (v_ArrVal_1862 (Array Int Int)) (|v_ULTIMATE.start_main_~i~0#1_50| Int) (|v_ULTIMATE.start_main_~i~0#1_49| Int) (|v_ULTIMATE.start_main_~i~0#1_48| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_55| Int) (v_ArrVal_1860 Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_53| Int) (|v_ULTIMATE.start_main_#t~mem11#1.offset_51| Int) (v_ArrVal_1855 Int) (v_ArrVal_1858 (Array Int Int))) (let ((.cse21 (store |c_#memory_$Pointer$.base| .cse9 v_ArrVal_1853))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse9 v_ArrVal_1854)) (.cse19 (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse15 .cse19 v_ArrVal_1856))) (let ((.cse14 (mod (let ((.cse20 (store .cse21 .cse19 v_ArrVal_1858))) (let ((.cse17 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse16 (let ((.cse18 (store |c_#memory_int| .cse9 (store .cse10 (+ (* |v_ULTIMATE.start_main_~i~0#1_50| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_55|) v_ArrVal_1855)))) (store .cse18 .cse19 (store (select .cse18 .cse19) (+ (* |v_ULTIMATE.start_main_~i~0#1_49| 4) |v_ULTIMATE.start_main_#t~mem11#1.offset_53|) v_ArrVal_1859))))) (store .cse16 .cse17 (store (select .cse16 .cse17) (+ |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (* |v_ULTIMATE.start_main_~i~0#1_48| 4)) v_ArrVal_1860))) (select (select (store .cse20 .cse17 v_ArrVal_1862) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse13 .cse17 v_ArrVal_1863) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) 4294967296))) (or (< |v_ULTIMATE.start_main_~i~0#1_50| .cse0) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_51| (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< 2147483647 .cse14) (< |v_ULTIMATE.start_main_~i~0#1_48| (+ |v_ULTIMATE.start_main_~i~0#1_49| 1)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_53| (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (< |v_ULTIMATE.start_main_#t~mem11#1.offset_55| .cse3) (< |v_ULTIMATE.start_main_~i~0#1_49| (+ |v_ULTIMATE.start_main_~i~0#1_50| 1)) (not (= .cse14 |c_#pthreadsForks|))))))))))) is different from false [2023-11-24 02:36:47,144 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 3004720 treesize of output 2923824 [2023-11-24 02:37:04,327 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2996528 treesize of output 2915632 [2023-11-24 02:37:31,009 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,013 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,016 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,019 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,023 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 13 treesize of output 9 [2023-11-24 02:37:31,043 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,047 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,048 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,050 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,092 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,095 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,098 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,101 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,105 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 13 treesize of output 9 [2023-11-24 02:37:31,128 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,129 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,130 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,132 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,158 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,161 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:31,166 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,170 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 299 treesize of output 291 [2023-11-24 02:37:31,178 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 39 treesize of output 37 [2023-11-24 02:37:31,186 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 38 treesize of output 36 [2023-11-24 02:37:31,269 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 363775 treesize of output 358655 [2023-11-24 02:37:31,336 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1169 treesize of output 1161 [2023-11-24 02:37:31,351 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2335 treesize of output 2303 [2023-11-24 02:37:31,365 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2303 treesize of output 2287 [2023-11-24 02:37:31,383 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1151 treesize of output 1135 [2023-11-24 02:37:31,767 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 17880 treesize of output 16920 [2023-11-24 02:37:31,796 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 474 treesize of output 472 [2023-11-24 02:37:31,804 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 952 treesize of output 944 [2023-11-24 02:37:31,812 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 944 treesize of output 928 [2023-11-24 02:37:31,823 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 467 treesize of output 463 [2023-11-24 02:37:31,922 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,922 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,923 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,923 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,948 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,949 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,950 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,951 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,958 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,962 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1424 treesize of output 1368 [2023-11-24 02:37:31,968 WARN L214 Elim1Store]: Array PQE input equivalent to true [2023-11-24 02:37:31,984 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,985 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,985 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,986 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:31,999 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,000 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,000 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,001 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,012 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,014 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,014 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,015 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,043 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,046 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,049 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,053 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,057 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 14 treesize of output 10 [2023-11-24 02:37:32,066 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,066 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,067 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,067 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,076 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,079 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,082 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,086 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:32,090 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 13 treesize of output 9 [2023-11-24 02:37:32,117 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,118 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,118 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,119 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:32,153 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 281672 treesize of output 278856 [2023-11-24 02:37:32,201 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 684 treesize of output 682 [2023-11-24 02:37:32,215 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1368 treesize of output 1360 [2023-11-24 02:37:32,228 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1360 treesize of output 1344 [2023-11-24 02:37:32,244 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 673 treesize of output 669 [2023-11-24 02:37:32,617 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 363775 treesize of output 358655 [2023-11-24 02:37:32,689 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1169 treesize of output 1161 [2023-11-24 02:37:32,703 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2335 treesize of output 2319 [2023-11-24 02:37:32,718 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2319 treesize of output 2287 [2023-11-24 02:37:32,740 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1151 treesize of output 1135 [2023-11-24 02:37:33,161 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 244368 treesize of output 240592 [2023-11-24 02:37:33,206 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1920 treesize of output 1904 [2023-11-24 02:37:33,222 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1434 treesize of output 1426 [2023-11-24 02:37:33,239 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1429 treesize of output 1425 [2023-11-24 02:37:33,257 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1892 treesize of output 1860 [2023-11-24 02:37:33,390 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:33,393 INFO L190 IndexEqualityManager]: detected not equals via solver [2023-11-24 02:37:33,394 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,395 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,423 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,424 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,425 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,427 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,463 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 326471 treesize of output 320391 [2023-11-24 02:37:33,542 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1929 treesize of output 1919 [2023-11-24 02:37:33,564 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1933 treesize of output 1913 [2023-11-24 02:37:33,584 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2863 treesize of output 2839 [2023-11-24 02:37:33,604 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 2839 treesize of output 2791 [2023-11-24 02:37:33,935 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,936 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,936 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,937 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,943 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,943 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,944 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,944 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:33,975 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 35874 treesize of output 34850 [2023-11-24 02:37:34,000 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 599 treesize of output 585 [2023-11-24 02:37:34,011 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1172 treesize of output 1168 [2023-11-24 02:37:34,022 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1168 treesize of output 1160 [2023-11-24 02:37:34,032 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 1160 treesize of output 1144 [2023-11-24 02:37:34,249 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,250 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,250 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,251 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,269 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 17880 treesize of output 16920 [2023-11-24 02:37:34,281 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 954 treesize of output 946 [2023-11-24 02:37:34,293 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 470 treesize of output 468 [2023-11-24 02:37:34,306 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 475 treesize of output 471 [2023-11-24 02:37:34,315 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 940 treesize of output 924 [2023-11-24 02:37:34,423 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,424 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,424 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,425 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,441 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,443 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,444 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,445 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,463 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,464 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,466 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,468 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,479 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,480 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,481 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,482 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,486 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,487 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,487 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,488 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,494 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,495 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,496 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,497 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,503 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,504 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,504 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,504 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,510 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,511 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,511 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:34,512 INFO L173 IndexEqualityManager]: detected equality via solver [2023-11-24 02:37:39,023 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1)] Forceful destruction successful, exit code 101 [2023-11-24 02:37:39,024 WARN L249 Executor]: External (MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1) with exit command (exit)) stderr output: (error "out of memory") [2023-11-24 02:37:39,025 WARN L320 FreeRefinementEngine]: Global settings require throwing the following exception [2023-11-24 02:37:39,039 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (16)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:39,236 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 16 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable27 [2023-11-24 02:37:39,237 FATAL L? ?]: An unrecoverable error occured during an interaction with an SMT solver: de.uni_freiburg.informatik.ultimate.logic.SMTLIBException: External (MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1) with exit command (exit)) Received EOF on stdin. stderr output: (error "out of memory") at de.uni_freiburg.informatik.ultimate.smtsolver.external.Executor.parse(Executor.java:262) at de.uni_freiburg.informatik.ultimate.smtsolver.external.Executor.parseCheckSatResult(Executor.java:281) at de.uni_freiburg.informatik.ultimate.smtsolver.external.Scriptor.checkSat(Scriptor.java:155) at de.uni_freiburg.informatik.ultimate.logic.WrapperScript.checkSat(WrapperScript.java:163) at de.uni_freiburg.informatik.ultimate.logic.WrapperScript.checkSat(WrapperScript.java:163) at de.uni_freiburg.informatik.ultimate.lib.smtlibutils.ManagedScript.checkSat(ManagedScript.java:148) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.MonolithicImplicationChecker.checkImplication(MonolithicImplicationChecker.java:85) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier$PredicateComparison.compare(PredicateUnifier.java:950) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier$PredicateComparison.(PredicateUnifier.java:789) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate(PredicateUnifier.java:377) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate(PredicateUnifier.java:326) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.singletracecheck.TraceCheckSpWp$UnifyPostprocessor.postprocess(TraceCheckSpWp.java:579) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.predicates.IterativePredicateTransformer.applyPostprocessors(IterativePredicateTransformer.java:420) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.predicates.IterativePredicateTransformer.computeBackwardSequence(IterativePredicateTransformer.java:399) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.predicates.IterativePredicateTransformer.computeWeakestPreconditionSequence(IterativePredicateTransformer.java:271) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.singletracecheck.TraceCheckSpWp.computeInterpolantsUsingUnsatCore(TraceCheckSpWp.java:341) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.singletracecheck.TraceCheckSpWp.computeInterpolants(TraceCheckSpWp.java:184) at de.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.singletracecheck.TraceCheckSpWp.(TraceCheckSpWp.java:162) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.tracehandling.IpTcStrategyModuleSpWp.construct(IpTcStrategyModuleSpWp.java:110) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.tracehandling.IpTcStrategyModuleSpWp.construct(IpTcStrategyModuleSpWp.java:1) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.tracehandling.IpTcStrategyModuleBase.getOrConstruct(IpTcStrategyModuleBase.java:101) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.tracehandling.IpTcStrategyModuleBase.getInterpolantComputationStatus(IpTcStrategyModuleBase.java:77) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.tracehandling.AutomatonFreeRefinementEngine.tryExecuteInterpolantGenerator(AutomatonFreeRefinementEngine.java:267) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.tracehandling.AutomatonFreeRefinementEngine.generateProof(AutomatonFreeRefinementEngine.java:148) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.tracehandling.AutomatonFreeRefinementEngine.executeStrategy(AutomatonFreeRefinementEngine.java:137) at de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.tracehandling.AutomatonFreeRefinementEngine.(AutomatonFreeRefinementEngine.java:85) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.tracehandling.TraceAbstractionRefinementEngine.(TraceAbstractionRefinementEngine.java:82) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.BasicCegarLoop.isCounterexampleFeasible(BasicCegarLoop.java:337) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.AbstractCegarLoop.iterate(AbstractCegarLoop.java:431) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.AbstractCegarLoop.startCegar(AbstractCegarLoop.java:366) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.AbstractCegarLoop.runCegar(AbstractCegarLoop.java:348) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionStarter.executeCegarLoop(TraceAbstractionStarter.java:415) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionStarter.analyseProgram(TraceAbstractionStarter.java:302) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionStarter.analyseConcurrentProgram(TraceAbstractionStarter.java:225) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionStarter.runCegarLoops(TraceAbstractionStarter.java:173) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionStarter.(TraceAbstractionStarter.java:154) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver.finish(TraceAbstractionObserver.java:124) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.runObserver(PluginConnector.java:167) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.runTool(PluginConnector.java:150) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.run(PluginConnector.java:127) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.executePluginConnector(ToolchainWalker.java:233) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.processPlugin(ToolchainWalker.java:227) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.walkUnprotected(ToolchainWalker.java:144) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.walk(ToolchainWalker.java:106) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainManager$Toolchain.processToolchain(ToolchainManager.java:319) at de.uni_freiburg.informatik.ultimate.core.coreplugin.toolchain.DefaultToolchainJob.run(DefaultToolchainJob.java:145) at org.eclipse.core.internal.jobs.Worker.run(Worker.java:63) Caused by: de.uni_freiburg.informatik.ultimate.logic.SMTLIBException: EOF at de.uni_freiburg.informatik.ultimate.smtsolver.external.Parser$Action$.CUP$do_action(Parser.java:1518) at de.uni_freiburg.informatik.ultimate.smtsolver.external.Parser.do_action(Parser.java:701) at com.github.jhoenicke.javacup.runtime.LRParser.parse(LRParser.java:383) at de.uni_freiburg.informatik.ultimate.smtsolver.external.Executor.parse(Executor.java:258) ... 46 more [2023-11-24 02:37:39,266 INFO L158 Benchmark]: Toolchain (without parser) took 466776.44ms. Allocated memory was 184.5MB in the beginning and 5.1GB in the end (delta: 4.9GB). Free memory was 126.0MB in the beginning and 4.4GB in the end (delta: -4.2GB). Peak memory consumption was 695.8MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,266 INFO L158 Benchmark]: CDTParser took 0.15ms. Allocated memory is still 184.5MB. Free memory is still 147.5MB. There was no memory consumed. Max. memory is 16.1GB. [2023-11-24 02:37:39,267 INFO L158 Benchmark]: CACSL2BoogieTranslator took 485.64ms. Allocated memory is still 184.5MB. Free memory was 126.0MB in the beginning and 97.7MB in the end (delta: 28.2MB). Peak memory consumption was 29.4MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,267 INFO L158 Benchmark]: Boogie Procedure Inliner took 49.66ms. Allocated memory is still 184.5MB. Free memory was 97.2MB in the beginning and 95.1MB in the end (delta: 2.1MB). Peak memory consumption was 2.1MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,267 INFO L158 Benchmark]: Boogie Preprocessor took 30.98ms. Allocated memory is still 184.5MB. Free memory was 95.1MB in the beginning and 93.0MB in the end (delta: 2.1MB). Peak memory consumption was 2.1MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,267 INFO L158 Benchmark]: RCFGBuilder took 564.26ms. Allocated memory is still 184.5MB. Free memory was 93.0MB in the beginning and 74.7MB in the end (delta: 18.3MB). Peak memory consumption was 18.9MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,267 INFO L158 Benchmark]: TraceAbstraction took 465641.16ms. Allocated memory was 184.5MB in the beginning and 5.1GB in the end (delta: 4.9GB). Free memory was 74.1MB in the beginning and 4.4GB in the end (delta: -4.3GB). Peak memory consumption was 643.3MB. Max. memory is 16.1GB. [2023-11-24 02:37:39,269 INFO L338 ainManager$Toolchain]: ####################### End [Toolchain 1] ####################### --- Results --- * Results from de.uni_freiburg.informatik.ultimate.core: - StatisticsResult: Toolchain Benchmarks Benchmark results are: * CDTParser took 0.15ms. Allocated memory is still 184.5MB. Free memory is still 147.5MB. There was no memory consumed. Max. memory is 16.1GB. * CACSL2BoogieTranslator took 485.64ms. Allocated memory is still 184.5MB. Free memory was 126.0MB in the beginning and 97.7MB in the end (delta: 28.2MB). Peak memory consumption was 29.4MB. Max. memory is 16.1GB. * Boogie Procedure Inliner took 49.66ms. Allocated memory is still 184.5MB. Free memory was 97.2MB in the beginning and 95.1MB in the end (delta: 2.1MB). Peak memory consumption was 2.1MB. Max. memory is 16.1GB. * Boogie Preprocessor took 30.98ms. Allocated memory is still 184.5MB. Free memory was 95.1MB in the beginning and 93.0MB in the end (delta: 2.1MB). Peak memory consumption was 2.1MB. Max. memory is 16.1GB. * RCFGBuilder took 564.26ms. Allocated memory is still 184.5MB. Free memory was 93.0MB in the beginning and 74.7MB in the end (delta: 18.3MB). Peak memory consumption was 18.9MB. Max. memory is 16.1GB. * TraceAbstraction took 465641.16ms. Allocated memory was 184.5MB in the beginning and 5.1GB in the end (delta: 4.9GB). Free memory was 74.1MB in the beginning and 4.4GB in the end (delta: -4.3GB). Peak memory consumption was 643.3MB. Max. memory is 16.1GB. * Results from de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 531, independent: 526, independent conditional: 10, independent unconditional: 516, dependent: 5, dependent conditional: 2, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 519, Positive cache size: 516, Positive conditional cache size: 0, Positive unconditional cache size: 516, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 2, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 531, independent: 526, independent conditional: 10, independent unconditional: 516, dependent: 5, dependent conditional: 2, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 519, Positive cache size: 516, Positive conditional cache size: 0, Positive unconditional cache size: 516, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 1386, independent: 1367, independent conditional: 90, independent unconditional: 1277, dependent: 19, dependent conditional: 13, dependent unconditional: 6, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 1449, Positive cache size: 1439, Positive conditional cache size: 0, Positive unconditional cache size: 1439, Negative cache size: 10, Negative conditional cache size: 0, Negative unconditional cache size: 10, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 15, Statistics for Abstraction: - StatisticsResult: Independence relation #4 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 1404, independent: 1376, independent conditional: 111, independent unconditional: 1265, dependent: 28, dependent conditional: 20, dependent unconditional: 8, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 1922, Positive cache size: 1909, Positive conditional cache size: 0, Positive unconditional cache size: 1909, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 35, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.2s, Number of persistent set computation: 48, Number of trivial persistent sets: 42, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 519, independent: 516, independent conditional: 0, independent unconditional: 516, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 531, independent: 526, independent conditional: 10, independent unconditional: 516, dependent: 5, dependent conditional: 2, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 519, Positive cache size: 516, Positive conditional cache size: 0, Positive unconditional cache size: 516, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 2, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 48, Number of trivial persistent sets: 42, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 519, independent: 516, independent conditional: 0, independent unconditional: 516, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 531, independent: 526, independent conditional: 10, independent unconditional: 516, dependent: 5, dependent conditional: 2, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 519, Positive cache size: 516, Positive conditional cache size: 0, Positive unconditional cache size: 516, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 105, Number of trivial persistent sets: 91, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1283, independent: 1277, independent conditional: 0, independent unconditional: 1277, dependent: 6, dependent conditional: 0, dependent unconditional: 6, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 1386, independent: 1367, independent conditional: 90, independent unconditional: 1277, dependent: 19, dependent conditional: 13, dependent unconditional: 6, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 1449, Positive cache size: 1439, Positive conditional cache size: 0, Positive unconditional cache size: 1439, Negative cache size: 10, Negative conditional cache size: 0, Negative unconditional cache size: 10, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 15, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 134, Number of trivial persistent sets: 119, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1273, independent: 1265, independent conditional: 0, independent unconditional: 1265, dependent: 8, dependent conditional: 0, dependent unconditional: 8, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 1404, independent: 1376, independent conditional: 111, independent unconditional: 1265, dependent: 28, dependent conditional: 20, dependent unconditional: 8, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 3852, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 57, dependent conditional: 37, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 3817, independent: 3795, independent conditional: 221, independent unconditional: 3574, dependent: 22, dependent conditional: 2, dependent unconditional: 20, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 2, dependent unconditional: 22, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 3819, independent: 3795, independent conditional: 0, independent unconditional: 3795, dependent: 24, dependent conditional: 0, dependent unconditional: 24, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1922, independent: 1909, independent conditional: 0, independent unconditional: 1909, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 44, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 44, dependent conditional: 0, dependent unconditional: 44, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 3819, independent: 1886, independent conditional: 0, independent unconditional: 1886, dependent: 11, dependent conditional: 0, dependent unconditional: 11, unknown: 1922, unknown conditional: 0, unknown unconditional: 1922] , Statistics on independence cache: Total cache size (in pairs): 1922, Positive cache size: 1909, Positive conditional cache size: 0, Positive unconditional cache size: 1909, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 35, Statistics for Abstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 449, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 10, dependent conditional: 9, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 399, Positive cache size: 398, Positive conditional cache size: 0, Positive unconditional cache size: 398, Negative cache size: 1, Negative conditional cache size: 0, Negative unconditional cache size: 1, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 19, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.1s, Number of persistent set computation: 56, Number of trivial persistent sets: 56, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 420, independent: 419, independent conditional: 0, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 449, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 10, dependent conditional: 9, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 459, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 20, dependent conditional: 19, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 20, independent unconditional: 419, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 440, independent: 439, independent conditional: 0, independent unconditional: 439, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 399, independent: 398, independent conditional: 0, independent unconditional: 398, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 1, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 1, dependent conditional: 0, dependent unconditional: 1, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 440, independent: 41, independent conditional: 0, independent unconditional: 41, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 399, unknown conditional: 0, unknown unconditional: 399] , Statistics on independence cache: Total cache size (in pairs): 399, Positive cache size: 398, Positive conditional cache size: 0, Positive unconditional cache size: 398, Negative cache size: 1, Negative conditional cache size: 0, Negative unconditional cache size: 1, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 19, Statistics for Abstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 800, independent: 793, independent conditional: 10, independent unconditional: 783, dependent: 7, dependent conditional: 2, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 788, Positive cache size: 783, Positive conditional cache size: 0, Positive unconditional cache size: 783, Negative cache size: 5, Negative conditional cache size: 0, Negative unconditional cache size: 5, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 2, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 800, independent: 793, independent conditional: 10, independent unconditional: 783, dependent: 7, dependent conditional: 2, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 788, Positive cache size: 783, Positive conditional cache size: 0, Positive unconditional cache size: 783, Negative cache size: 5, Negative conditional cache size: 0, Negative unconditional cache size: 5, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 2943, independent: 2911, independent conditional: 176, independent unconditional: 2735, dependent: 32, dependent conditional: 14, dependent unconditional: 18, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 2974, Positive cache size: 2950, Positive conditional cache size: 0, Positive unconditional cache size: 2950, Negative cache size: 24, Negative conditional cache size: 0, Negative unconditional cache size: 24, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 16, Statistics for Abstraction: - StatisticsResult: Independence relation #4 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 4154, independent: 4090, independent conditional: 492, independent unconditional: 3598, dependent: 64, dependent conditional: 39, dependent unconditional: 25, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 4242, Positive cache size: 4209, Positive conditional cache size: 0, Positive unconditional cache size: 4209, Negative cache size: 33, Negative conditional cache size: 0, Negative unconditional cache size: 33, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 27, Maximal queried relation: 2, Independence queries for same thread: 36, Statistics for Abstraction: - StatisticsResult: Independence relation #5 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 8082, independent: 7880, independent conditional: 3184, independent unconditional: 4696, dependent: 202, dependent conditional: 170, dependent unconditional: 32, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 5965, Positive cache size: 5919, Positive conditional cache size: 0, Positive unconditional cache size: 5919, Negative cache size: 46, Negative conditional cache size: 0, Negative unconditional cache size: 46, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 163, Maximal queried relation: 2, Independence queries for same thread: 152, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.1s, Number of persistent set computation: 48, Number of trivial persistent sets: 42, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 788, independent: 783, independent conditional: 0, independent unconditional: 783, dependent: 5, dependent conditional: 0, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 800, independent: 793, independent conditional: 10, independent unconditional: 783, dependent: 7, dependent conditional: 2, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 788, Positive cache size: 783, Positive conditional cache size: 0, Positive unconditional cache size: 783, Negative cache size: 5, Negative conditional cache size: 0, Negative unconditional cache size: 5, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 2, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 48, Number of trivial persistent sets: 42, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 788, independent: 783, independent conditional: 0, independent unconditional: 783, dependent: 5, dependent conditional: 0, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 800, independent: 793, independent conditional: 10, independent unconditional: 783, dependent: 7, dependent conditional: 2, dependent unconditional: 5, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 788, Positive cache size: 783, Positive conditional cache size: 0, Positive unconditional cache size: 783, Negative cache size: 5, Negative conditional cache size: 0, Negative unconditional cache size: 5, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 145, Number of trivial persistent sets: 116, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2753, independent: 2735, independent conditional: 0, independent unconditional: 2735, dependent: 18, dependent conditional: 0, dependent unconditional: 18, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 2943, independent: 2911, independent conditional: 176, independent unconditional: 2735, dependent: 32, dependent conditional: 14, dependent unconditional: 18, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 2974, Positive cache size: 2950, Positive conditional cache size: 0, Positive unconditional cache size: 2950, Negative cache size: 24, Negative conditional cache size: 0, Negative unconditional cache size: 24, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 2, Maximal queried relation: 1, Independence queries for same thread: 16, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 248, Number of trivial persistent sets: 222, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3623, independent: 3598, independent conditional: 0, independent unconditional: 3598, dependent: 25, dependent conditional: 0, dependent unconditional: 25, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 4154, independent: 4090, independent conditional: 492, independent unconditional: 3598, dependent: 64, dependent conditional: 39, dependent unconditional: 25, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 4242, Positive cache size: 4209, Positive conditional cache size: 0, Positive unconditional cache size: 4209, Negative cache size: 33, Negative conditional cache size: 0, Negative unconditional cache size: 33, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 27, Maximal queried relation: 2, Independence queries for same thread: 36, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.1s, Number of persistent set computation: 1339, Number of trivial persistent sets: 851, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 4728, independent: 4696, independent conditional: 0, independent unconditional: 4696, dependent: 32, dependent conditional: 0, dependent unconditional: 32, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 8082, independent: 7880, independent conditional: 3184, independent unconditional: 4696, dependent: 202, dependent conditional: 170, dependent unconditional: 32, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 16779, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 312, dependent conditional: 227, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 16627, independent: 16467, independent conditional: 3872, independent unconditional: 12595, dependent: 160, dependent conditional: 75, dependent unconditional: 85, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 31, independent unconditional: 16436, dependent: 291, dependent conditional: 132, dependent unconditional: 159, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 16758, independent: 16467, independent conditional: 0, independent unconditional: 16467, dependent: 291, dependent conditional: 0, dependent unconditional: 291, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 5965, independent: 5919, independent conditional: 0, independent unconditional: 5919, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 5965, independent: 5917, independent conditional: 0, independent unconditional: 5917, dependent: 48, dependent conditional: 0, dependent unconditional: 48, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 48, independent: 2, independent conditional: 0, independent unconditional: 2, dependent: 46, dependent conditional: 0, dependent unconditional: 46, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 51, independent: 1, independent conditional: 0, independent unconditional: 1, dependent: 50, dependent conditional: 0, dependent unconditional: 50, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 16758, independent: 10548, independent conditional: 0, independent unconditional: 10548, dependent: 245, dependent conditional: 0, dependent unconditional: 245, unknown: 5965, unknown conditional: 0, unknown unconditional: 5965] , Statistics on independence cache: Total cache size (in pairs): 5965, Positive cache size: 5919, Positive conditional cache size: 0, Positive unconditional cache size: 5919, Negative cache size: 46, Negative conditional cache size: 0, Negative unconditional cache size: 46, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 163, Maximal queried relation: 2, Independence queries for same thread: 152, Statistics for Abstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 983, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 15, dependent conditional: 13, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 849, Positive cache size: 847, Positive conditional cache size: 0, Positive unconditional cache size: 847, Negative cache size: 2, Negative conditional cache size: 0, Negative unconditional cache size: 2, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 23, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 73, Number of trivial persistent sets: 73, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 893, independent: 891, independent conditional: 0, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 983, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 15, dependent conditional: 13, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 993, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 25, dependent conditional: 23, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 77, independent unconditional: 891, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 970, independent: 968, independent conditional: 0, independent unconditional: 968, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 849, independent: 847, independent conditional: 0, independent unconditional: 847, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 2, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 2, dependent conditional: 0, dependent unconditional: 2, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 12, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 12, dependent conditional: 0, dependent unconditional: 12, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 970, independent: 121, independent conditional: 0, independent unconditional: 121, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 849, unknown conditional: 0, unknown unconditional: 849] , Statistics on independence cache: Total cache size (in pairs): 849, Positive cache size: 847, Positive conditional cache size: 0, Positive unconditional cache size: 847, Negative cache size: 2, Negative conditional cache size: 0, Negative unconditional cache size: 2, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 23, Statistics for Abstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 1615, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 20, dependent conditional: 17, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 1341, Positive cache size: 1338, Positive conditional cache size: 0, Positive unconditional cache size: 1338, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 27, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 5, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 37, Number of trivial persistent sets: 37, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 0, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 5, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 5, dependent conditional: 5, dependent unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 0, Positive cache size: 0, Positive conditional cache size: 0, Positive unconditional cache size: 0, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: -1, Independence queries for same thread: 10, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 90, Number of trivial persistent sets: 90, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1410, independent: 1407, independent conditional: 0, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 1615, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 20, dependent conditional: 17, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1625, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 30, dependent conditional: 27, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 188, independent unconditional: 1407, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1598, independent: 1595, independent conditional: 0, independent unconditional: 1595, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 1341, independent: 1338, independent conditional: 0, independent unconditional: 1338, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 3, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 3, dependent conditional: 0, dependent unconditional: 3, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 13, independent: 0, independent conditional: 0, independent unconditional: 0, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1598, independent: 257, independent conditional: 0, independent unconditional: 257, dependent: 0, dependent conditional: 0, dependent unconditional: 0, unknown: 1341, unknown conditional: 0, unknown unconditional: 1341] , Statistics on independence cache: Total cache size (in pairs): 1341, Positive cache size: 1338, Positive conditional cache size: 0, Positive unconditional cache size: 1338, Negative cache size: 3, Negative conditional cache size: 0, Negative unconditional cache size: 3, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 27, Statistics for Abstraction: - StatisticsResult: Independence relation #1 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 2964, independent: 2947, independent conditional: 132, independent unconditional: 2815, dependent: 17, dependent conditional: 4, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 2732, Positive cache size: 2719, Positive conditional cache size: 0, Positive unconditional cache size: 2719, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Independence relation #2 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 2955, independent: 2940, independent conditional: 125, independent unconditional: 2815, dependent: 15, dependent conditional: 2, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 2732, Positive cache size: 2719, Positive conditional cache size: 0, Positive unconditional cache size: 2719, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 6, Statistics for Abstraction: - StatisticsResult: Independence relation #3 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 27577, independent: 26600, independent conditional: 18786, independent unconditional: 7814, dependent: 977, dependent conditional: 920, dependent unconditional: 57, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 8466, Positive cache size: 8391, Positive conditional cache size: 0, Positive unconditional cache size: 8391, Negative cache size: 75, Negative conditional cache size: 0, Negative unconditional cache size: 75, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 231, Maximal queried relation: 1, Independence queries for same thread: 695, Statistics for Abstraction: - StatisticsResult: Independence relation #4 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 18267, independent: 17898, independent conditional: 8227, independent unconditional: 9671, dependent: 369, dependent conditional: 286, dependent unconditional: 83, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 11621, Positive cache size: 11512, Positive conditional cache size: 0, Positive unconditional cache size: 11512, Negative cache size: 109, Negative conditional cache size: 0, Negative unconditional cache size: 109, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 483, Maximal queried relation: 2, Independence queries for same thread: 779, Statistics for Abstraction: - StatisticsResult: Independence relation #5 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 177576, independent: 173966, independent conditional: 162370, independent unconditional: 11596, dependent: 3610, dependent conditional: 3506, dependent unconditional: 104, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 15131, Positive cache size: 14996, Positive conditional cache size: 0, Positive unconditional cache size: 14996, Negative cache size: 135, Negative conditional cache size: 0, Negative unconditional cache size: 135, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 10395, Maximal queried relation: 3, Independence queries for same thread: 2321, Statistics for Abstraction: - StatisticsResult: Independence relation #6 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 192510, independent: 188580, independent conditional: 176325, independent unconditional: 12255, dependent: 3930, dependent conditional: 3818, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21034, Positive cache size: 20848, Positive conditional cache size: 0, Positive unconditional cache size: 20848, Negative cache size: 186, Negative conditional cache size: 0, Negative unconditional cache size: 186, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 22735, Maximal queried relation: 4, Independence queries for same thread: 4004, Statistics for Abstraction: - StatisticsResult: Independence relation #7 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 446346, independent: 437985, independent conditional: 425054, independent unconditional: 12931, dependent: 8361, dependent conditional: 8249, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21570, Positive cache size: 21371, Positive conditional cache size: 0, Positive unconditional cache size: 21371, Negative cache size: 199, Negative conditional cache size: 0, Negative unconditional cache size: 199, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 47213, Maximal queried relation: 5, Independence queries for same thread: 7617, Statistics for Abstraction: - StatisticsResult: Independence relation #8 benchmarks IndependenceRelationWithAbstraction.Independence Queries: [ total: 468547, independent: 459635, independent conditional: 447369, independent unconditional: 12266, dependent: 8912, dependent conditional: 8807, dependent unconditional: 105, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21614, Positive cache size: 21415, Positive conditional cache size: 0, Positive unconditional cache size: 21415, Negative cache size: 199, Negative conditional cache size: 0, Negative unconditional cache size: 199, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 77740, Maximal queried relation: 5, Independence queries for same thread: 11505, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.1s, Number of persistent set computation: 82, Number of trivial persistent sets: 43, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2828, independent: 2815, independent conditional: 0, independent unconditional: 2815, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 2964, independent: 2947, independent conditional: 132, independent unconditional: 2815, dependent: 17, dependent conditional: 4, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 2732, Positive cache size: 2719, Positive conditional cache size: 0, Positive unconditional cache size: 2719, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 4, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.0s, Number of persistent set computation: 82, Number of trivial persistent sets: 43, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 2828, independent: 2815, independent conditional: 0, independent unconditional: 2815, dependent: 13, dependent conditional: 0, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 2955, independent: 2940, independent conditional: 125, independent unconditional: 2815, dependent: 15, dependent conditional: 2, dependent unconditional: 13, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 2732, Positive cache size: 2719, Positive conditional cache size: 0, Positive unconditional cache size: 2719, Negative cache size: 13, Negative conditional cache size: 0, Negative unconditional cache size: 13, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 0, Maximal queried relation: 0, Independence queries for same thread: 6, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.3s, Number of persistent set computation: 5345, Number of trivial persistent sets: 5268, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 7871, independent: 7814, independent conditional: 0, independent unconditional: 7814, dependent: 57, dependent conditional: 0, dependent unconditional: 57, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 27577, independent: 26600, independent conditional: 18786, independent unconditional: 7814, dependent: 977, dependent conditional: 920, dependent unconditional: 57, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 8466, Positive cache size: 8391, Positive conditional cache size: 0, Positive unconditional cache size: 8391, Negative cache size: 75, Negative conditional cache size: 0, Negative unconditional cache size: 75, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 231, Maximal queried relation: 1, Independence queries for same thread: 695, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.1s, Number of persistent set computation: 2160, Number of trivial persistent sets: 2085, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 9754, independent: 9671, independent conditional: 0, independent unconditional: 9671, dependent: 83, dependent conditional: 0, dependent unconditional: 83, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 18267, independent: 17898, independent conditional: 8227, independent unconditional: 9671, dependent: 369, dependent conditional: 286, dependent unconditional: 83, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 11621, Positive cache size: 11512, Positive conditional cache size: 0, Positive unconditional cache size: 11512, Negative cache size: 109, Negative conditional cache size: 0, Negative unconditional cache size: 109, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 483, Maximal queried relation: 2, Independence queries for same thread: 779, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 1.1s, Number of persistent set computation: 26516, Number of trivial persistent sets: 16908, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 11700, independent: 11596, independent conditional: 0, independent unconditional: 11596, dependent: 104, dependent conditional: 0, dependent unconditional: 104, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 177576, independent: 173966, independent conditional: 162370, independent unconditional: 11596, dependent: 3610, dependent conditional: 3506, dependent unconditional: 104, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 15131, Positive cache size: 14996, Positive conditional cache size: 0, Positive unconditional cache size: 14996, Negative cache size: 135, Negative conditional cache size: 0, Negative unconditional cache size: 135, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 10395, Maximal queried relation: 3, Independence queries for same thread: 2321, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 0.8s, Number of persistent set computation: 29724, Number of trivial persistent sets: 19008, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 12367, independent: 12255, independent conditional: 0, independent unconditional: 12255, dependent: 112, dependent conditional: 0, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 192510, independent: 188580, independent conditional: 176325, independent unconditional: 12255, dependent: 3930, dependent conditional: 3818, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21034, Positive cache size: 20848, Positive conditional cache size: 0, Positive unconditional cache size: 20848, Negative cache size: 186, Negative conditional cache size: 0, Negative unconditional cache size: 186, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 22735, Maximal queried relation: 4, Independence queries for same thread: 4004, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 1.4s, Number of persistent set computation: 65872, Number of trivial persistent sets: 41120, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 13043, independent: 12931, independent conditional: 0, independent unconditional: 12931, dependent: 112, dependent conditional: 0, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 446346, independent: 437985, independent conditional: 425054, independent unconditional: 12931, dependent: 8361, dependent conditional: 8249, dependent unconditional: 112, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21570, Positive cache size: 21371, Positive conditional cache size: 0, Positive unconditional cache size: 21371, Negative cache size: 199, Negative conditional cache size: 0, Negative unconditional cache size: 199, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 47213, Maximal queried relation: 5, Independence queries for same thread: 7617, Statistics for Abstraction: - StatisticsResult: Persistent set benchmarks Persistent set computation time: 1.5s, Number of persistent set computation: 71052, Number of trivial persistent sets: 44272, Underlying independence relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 12371, independent: 12266, independent conditional: 0, independent unconditional: 12266, dependent: 105, dependent conditional: 0, dependent unconditional: 105, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: IndependenceRelationWithAbstraction.Independence Queries: [ total: 468547, independent: 459635, independent conditional: 447369, independent unconditional: 12266, dependent: 8912, dependent conditional: 8807, dependent unconditional: 105, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , IndependenceRelationWithAbstraction.Statistics on underlying relation: ThreadSeparatingIndependenceRelation.Independence Queries: [ total: 1336742, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 26191, dependent conditional: 25592, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ThreadSeparatingIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: DisjunctiveConditionalIndependenceRelation.Independence Queries: [ total: 1325237, independent: 1310551, independent conditional: 1238388, independent unconditional: 72163, dependent: 14686, dependent conditional: 14087, dependent unconditional: 599, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , DisjunctiveConditionalIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 23486, independent unconditional: 1287065, dependent: 68600, dependent conditional: 54254, dependent unconditional: 14346, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticConditionEliminator.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticConditionEliminator.Statistics on underlying relation: CachedIndependenceRelation.Independence Queries: [ total: 1379151, independent: 1310551, independent conditional: 0, independent unconditional: 1310551, dependent: 68600, dependent conditional: 0, dependent unconditional: 68600, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: UnionIndependenceRelation.Independence Queries: [ total: 21614, independent: 21415, independent conditional: 0, independent unconditional: 21415, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , UnionIndependenceRelation.Statistics on underlying relations: [ SyntacticIndependenceRelation.Independence Queries: [ total: 21614, independent: 21403, independent conditional: 0, independent unconditional: 21403, dependent: 211, dependent conditional: 0, dependent unconditional: 211, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ProtectedIndependenceRelation.Statistics on underlying relation: ConditionTransformingIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , ConditionTransformingIndependenceRelation.Statistics on underlying relation: SemanticIndependenceRelation.Independence Queries: [ total: 211, independent: 12, independent conditional: 0, independent unconditional: 12, dependent: 199, dependent conditional: 0, dependent unconditional: 199, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , SemanticIndependenceRelation.Query Time [ms]: [ total: 245, independent: 6, independent conditional: 0, independent unconditional: 6, dependent: 239, dependent conditional: 0, dependent unconditional: 239, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Protected Queries: 0 ], Cache Queries: [ total: 1379151, independent: 1289136, independent conditional: 0, independent unconditional: 1289136, dependent: 68401, dependent conditional: 0, dependent unconditional: 68401, unknown: 21614, unknown conditional: 0, unknown unconditional: 21614] , Statistics on independence cache: Total cache size (in pairs): 21614, Positive cache size: 21415, Positive conditional cache size: 0, Positive unconditional cache size: 21415, Negative cache size: 199, Negative conditional cache size: 0, Negative unconditional cache size: 199, Unknown cache size: 0, Unknown conditional cache size: 0, Unknown unconditional cache size: 0, Eliminated conditions: 77740, Maximal queried relation: 5, Independence queries for same thread: 11505, Statistics for Abstraction: - ExceptionOrErrorResult: SMTLIBException: External (MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1) with exit command (exit)) Received EOF on stdin. stderr output: (error "out of memory") de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction: SMTLIBException: External (MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1) with exit command (exit)) Received EOF on stdin. stderr output: (error "out of memory") : de.uni_freiburg.informatik.ultimate.smtsolver.external.Executor.parse(Executor.java:262) RESULT: Ultimate could not prove your program: Toolchain returned no result. [2023-11-24 02:37:39,360 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (14)] Ended with exit code 0 [2023-11-24 02:37:39,533 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (9)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:39,735 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (8)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:39,934 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (7)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:40,133 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (5)] Ended with exit code 0 [2023-11-24 02:37:40,333 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (4)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:40,534 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (2)] Forceful destruction successful, exit code 0 Received shutdown request... --- End real Ultimate output --- Execution finished normally Using bit-precise analysis Retrying with bit-precise analysis ### Bit-precise run ### Calling Ultimate with: /root/.sdkman/candidates/java/current/bin/java -Dosgi.configuration.area=/storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/config -Xmx15G -Xms4m -jar /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/plugins/org.eclipse.equinox.launcher_1.5.800.v20200727-1323.jar -data @noDefault -ultimatedata /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data -tc /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/GemCutterReach.xml -i ../../../trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i -s /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/svcomp-DataRace-32bit-GemCutter_Bitvector.epf --cacsl2boogietranslator.entry.function main --witnessprinter.witness.directory /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux --witnessprinter.witness.filename witness --witnessprinter.write.witness.besides.input.file false --witnessprinter.graph.data.specification CHECK( init(main()), LTL(G ! data-race) ) --witnessprinter.graph.data.producer GemCutter --witnessprinter.graph.data.architecture 32bit --witnessprinter.graph.data.programhash 9b6f5676df76ead7ff47af365c70465c7b9cb0ddd7acfe90754727af80919440 --- Real Ultimate output --- This is Ultimate 0.2.3-?-6568ba3-m [2023-11-24 02:37:42,944 INFO L188 SettingsManager]: Resetting all preferences to default values... [2023-11-24 02:37:43,017 INFO L114 SettingsManager]: Loading settings from /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/config/svcomp-DataRace-32bit-GemCutter_Bitvector.epf [2023-11-24 02:37:43,021 WARN L101 SettingsManager]: Preference file contains the following unknown settings: [2023-11-24 02:37:43,022 WARN L103 SettingsManager]: * de.uni_freiburg.informatik.ultimate.core.Log level for class [2023-11-24 02:37:43,045 INFO L130 SettingsManager]: Preferences different from defaults after loading the file: [2023-11-24 02:37:43,045 INFO L151 SettingsManager]: Preferences of UltimateCore differ from their defaults: [2023-11-24 02:37:43,045 INFO L153 SettingsManager]: * Log level for class=de.uni_freiburg.informatik.ultimate.lib.smtlibutils.quantifier.QuantifierPusher=ERROR; [2023-11-24 02:37:43,046 INFO L151 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2023-11-24 02:37:43,049 INFO L153 SettingsManager]: * Ignore calls to procedures called more than once=ONLY_FOR_SEQUENTIAL_PROGRAMS [2023-11-24 02:37:43,049 INFO L151 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2023-11-24 02:37:43,050 INFO L153 SettingsManager]: * Create parallel compositions if possible=false [2023-11-24 02:37:43,050 INFO L153 SettingsManager]: * Use SBE=true [2023-11-24 02:37:43,051 INFO L151 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2023-11-24 02:37:43,051 INFO L153 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2023-11-24 02:37:43,051 INFO L153 SettingsManager]: * sizeof long=4 [2023-11-24 02:37:43,051 INFO L153 SettingsManager]: * sizeof POINTER=4 [2023-11-24 02:37:43,052 INFO L153 SettingsManager]: * Check division by zero=IGNORE [2023-11-24 02:37:43,052 INFO L153 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2023-11-24 02:37:43,052 INFO L153 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2023-11-24 02:37:43,052 INFO L153 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2023-11-24 02:37:43,053 INFO L153 SettingsManager]: * Check absence of data races in concurrent programs=true [2023-11-24 02:37:43,053 INFO L153 SettingsManager]: * Use bitvectors instead of ints=true [2023-11-24 02:37:43,053 INFO L153 SettingsManager]: * Memory model=HoenickeLindenmann_4ByteResolution [2023-11-24 02:37:43,053 INFO L153 SettingsManager]: * Check unreachability of reach_error function=false [2023-11-24 02:37:43,053 INFO L153 SettingsManager]: * sizeof long double=12 [2023-11-24 02:37:43,054 INFO L153 SettingsManager]: * Check if freed pointer was valid=false [2023-11-24 02:37:43,054 INFO L153 SettingsManager]: * Use constant arrays=true [2023-11-24 02:37:43,054 INFO L151 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2023-11-24 02:37:43,054 INFO L153 SettingsManager]: * Size of a code block=SequenceOfStatements [2023-11-24 02:37:43,055 INFO L153 SettingsManager]: * SMT solver=External_DefaultMode [2023-11-24 02:37:43,055 INFO L153 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2023-11-24 02:37:43,055 INFO L151 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2023-11-24 02:37:43,055 INFO L153 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2023-11-24 02:37:43,056 INFO L153 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopHeads [2023-11-24 02:37:43,056 INFO L153 SettingsManager]: * Trace refinement strategy=WOLF [2023-11-24 02:37:43,056 INFO L153 SettingsManager]: * Command for external solver=cvc4 --incremental --print-success --lang smt [2023-11-24 02:37:43,056 INFO L153 SettingsManager]: * Apply one-shot large block encoding in concurrent analysis=false [2023-11-24 02:37:43,056 INFO L153 SettingsManager]: * Abstraction used for commutativity in POR=VARIABLES_GLOBAL [2023-11-24 02:37:43,057 INFO L153 SettingsManager]: * Automaton type used in concurrency analysis=PARTIAL_ORDER_FA [2023-11-24 02:37:43,057 INFO L153 SettingsManager]: * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true [2023-11-24 02:37:43,057 INFO L153 SettingsManager]: * CEGAR restart behaviour=ONE_CEGAR_PER_THREAD_INSTANCE [2023-11-24 02:37:43,057 INFO L153 SettingsManager]: * Partial Order Reduction in concurrent analysis=PERSISTENT_SLEEP_NEW_STATES_FIXEDORDER [2023-11-24 02:37:43,057 INFO L153 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode [2023-11-24 02:37:43,058 INFO L153 SettingsManager]: * Logic for external solver=AUFBV WARNING: An illegal reflective access operation has occurred WARNING: Illegal reflective access by com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 (file:/storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/plugins/com.sun.xml.bind_2.2.0.v201505121915.jar) to method java.lang.ClassLoader.defineClass(java.lang.String,byte[],int,int) WARNING: Please consider reporting this to the maintainers of com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 WARNING: Use --illegal-access=warn to enable warnings of further illegal reflective access operations WARNING: All illegal access operations will be denied in a future release Applying setting for plugin de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator: Entry function -> main Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness directory -> /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness filename -> witness Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Write witness besides input file -> false Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data specification -> CHECK( init(main()), LTL(G ! data-race) ) Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data producer -> GemCutter Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data architecture -> 32bit Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data programhash -> 9b6f5676df76ead7ff47af365c70465c7b9cb0ddd7acfe90754727af80919440 [2023-11-24 02:37:43,329 INFO L75 nceAwareModelManager]: Repository-Root is: /tmp [2023-11-24 02:37:43,348 INFO L261 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2023-11-24 02:37:43,350 INFO L217 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2023-11-24 02:37:43,351 INFO L270 PluginConnector]: Initializing CDTParser... [2023-11-24 02:37:43,351 INFO L274 PluginConnector]: CDTParser initialized [2023-11-24 02:37:43,352 INFO L431 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/../../../trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i [2023-11-24 02:37:44,420 INFO L533 CDTParser]: Created temporary CDT project at NULL [2023-11-24 02:37:44,631 INFO L384 CDTParser]: Found 1 translation units. [2023-11-24 02:37:44,632 INFO L180 CDTParser]: Scanning /storage/repos/ultimate/trunk/examples/svcomp/pthread-race-challenges/thread-join-array-dynamic-race-2.i [2023-11-24 02:37:44,643 INFO L427 CDTParser]: About to delete temporary CDT project at /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/3671aa107/5ec687578fa340c8afc98be9a8ba19ee/FLAGc0317ddf6 [2023-11-24 02:37:44,652 INFO L435 CDTParser]: Successfully deleted /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/data/3671aa107/5ec687578fa340c8afc98be9a8ba19ee [2023-11-24 02:37:44,657 INFO L299 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2023-11-24 02:37:44,658 INFO L133 ToolchainWalker]: Walking toolchain with 6 elements. [2023-11-24 02:37:44,659 INFO L112 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2023-11-24 02:37:44,660 INFO L270 PluginConnector]: Initializing CACSL2BoogieTranslator... [2023-11-24 02:37:44,664 INFO L274 PluginConnector]: CACSL2BoogieTranslator initialized [2023-11-24 02:37:44,664 INFO L184 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.11 02:37:44" (1/1) ... [2023-11-24 02:37:44,665 INFO L204 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@12863c64 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:44, skipping insertion in model container [2023-11-24 02:37:44,665 INFO L184 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.11 02:37:44" (1/1) ... [2023-11-24 02:37:44,716 INFO L177 MainTranslator]: Built tables and reachable declarations [2023-11-24 02:37:45,063 INFO L209 PostProcessor]: Analyzing one entry point: main [2023-11-24 02:37:45,076 INFO L202 MainTranslator]: Completed pre-run [2023-11-24 02:37:45,119 INFO L209 PostProcessor]: Analyzing one entry point: main [2023-11-24 02:37:45,186 INFO L206 MainTranslator]: Completed translation [2023-11-24 02:37:45,186 INFO L201 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45 WrapperNode [2023-11-24 02:37:45,186 INFO L131 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2023-11-24 02:37:45,187 INFO L112 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2023-11-24 02:37:45,187 INFO L270 PluginConnector]: Initializing Boogie Procedure Inliner... [2023-11-24 02:37:45,187 INFO L274 PluginConnector]: Boogie Procedure Inliner initialized [2023-11-24 02:37:45,192 INFO L184 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,219 INFO L184 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,242 INFO L138 Inliner]: procedures = 270, calls = 23, calls flagged for inlining = 3, calls inlined = 3, statements flattened = 84 [2023-11-24 02:37:45,242 INFO L131 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2023-11-24 02:37:45,243 INFO L112 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2023-11-24 02:37:45,243 INFO L270 PluginConnector]: Initializing Boogie Preprocessor... [2023-11-24 02:37:45,243 INFO L274 PluginConnector]: Boogie Preprocessor initialized [2023-11-24 02:37:45,249 INFO L184 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,250 INFO L184 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,257 INFO L184 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,257 INFO L184 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,271 INFO L184 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,276 INFO L184 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,277 INFO L184 PluginConnector]: Executing the observer LTLStepAnnotator from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,284 INFO L184 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,286 INFO L131 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2023-11-24 02:37:45,292 INFO L112 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2023-11-24 02:37:45,292 INFO L270 PluginConnector]: Initializing RCFGBuilder... [2023-11-24 02:37:45,292 INFO L274 PluginConnector]: RCFGBuilder initialized [2023-11-24 02:37:45,292 INFO L184 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (1/1) ... [2023-11-24 02:37:45,296 INFO L173 SolverBuilder]: Constructing external solver with command: z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2023-11-24 02:37:45,306 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:45,329 INFO L229 MonitoredProcess]: Starting monitored process 1 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:45,352 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1)] Waiting until timeout for monitored process [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure read~intINTTYPE4 [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocOnStack [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure read~$Pointer$ [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.dealloc [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure write~intINTTYPE4 [2023-11-24 02:37:45,382 INFO L130 BoogieDeclarations]: Found specification of procedure write~init~$Pointer$ [2023-11-24 02:37:45,383 INFO L130 BoogieDeclarations]: Found specification of procedure write~init~intINTTYPE4 [2023-11-24 02:37:45,383 INFO L130 BoogieDeclarations]: Found specification of procedure #PthreadsMutexUnlock [2023-11-24 02:37:45,383 INFO L130 BoogieDeclarations]: Found specification of procedure #PthreadsMutexLock [2023-11-24 02:37:45,383 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocOnHeap [2023-11-24 02:37:45,384 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.allocInit [2023-11-24 02:37:45,384 INFO L130 BoogieDeclarations]: Found specification of procedure thread [2023-11-24 02:37:45,385 INFO L138 BoogieDeclarations]: Found implementation of procedure thread [2023-11-24 02:37:45,385 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2023-11-24 02:37:45,385 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2023-11-24 02:37:45,386 WARN L213 CfgBuilder]: User set CodeBlockSize to SequenceOfStatements but program contains fork statements. Overwriting the user preferences and setting CodeBlockSize to OneNontrivialStatement [2023-11-24 02:37:45,510 INFO L241 CfgBuilder]: Building ICFG [2023-11-24 02:37:45,511 INFO L267 CfgBuilder]: Building CFG for each procedure with an implementation [2023-11-24 02:37:45,682 INFO L282 CfgBuilder]: Performing block encoding [2023-11-24 02:37:45,694 INFO L304 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2023-11-24 02:37:45,694 INFO L309 CfgBuilder]: Removed 2 assume(true) statements. [2023-11-24 02:37:45,696 INFO L201 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.11 02:37:45 BoogieIcfgContainer [2023-11-24 02:37:45,696 INFO L131 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2023-11-24 02:37:45,697 INFO L112 PluginConnector]: ------------------------TraceAbstraction---------------------------- [2023-11-24 02:37:45,697 INFO L270 PluginConnector]: Initializing TraceAbstraction... [2023-11-24 02:37:45,699 INFO L274 PluginConnector]: TraceAbstraction initialized [2023-11-24 02:37:45,699 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "CDTParser AST 24.11 02:37:44" (1/3) ... [2023-11-24 02:37:45,700 INFO L204 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@1a3d72e8 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 24.11 02:37:45, skipping insertion in model container [2023-11-24 02:37:45,700 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.11 02:37:45" (2/3) ... [2023-11-24 02:37:45,700 INFO L204 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@1a3d72e8 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 24.11 02:37:45, skipping insertion in model container [2023-11-24 02:37:45,700 INFO L184 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.11 02:37:45" (3/3) ... [2023-11-24 02:37:45,701 INFO L112 eAbstractionObserver]: Analyzing ICFG thread-join-array-dynamic-race-2.i [2023-11-24 02:37:45,707 WARN L145 ceAbstractionStarter]: Switching off computation of Hoare annotation because input is a concurrent program [2023-11-24 02:37:45,713 INFO L203 ceAbstractionStarter]: Automizer settings: Hoare:false NWA Interpolation:FPandBP Determinization: PREDICATE_ABSTRACTION [2023-11-24 02:37:45,714 INFO L162 ceAbstractionStarter]: Applying trace abstraction to program that has 6 error locations. [2023-11-24 02:37:45,714 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 1 thread instances. [2023-11-24 02:37:45,792 INFO L144 ThreadInstanceAdder]: Constructed 1 joinOtherThreadTransitions. [2023-11-24 02:37:45,834 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:45,834 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:45,834 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:45,835 INFO L229 MonitoredProcess]: Starting monitored process 2 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:45,846 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (2)] Waiting until timeout for monitored process [2023-11-24 02:37:45,897 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:45,906 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of1ForFork0 ======== [2023-11-24 02:37:45,911 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:45,911 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:37:46,134 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:46,138 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:46,138 INFO L85 PathProgramCache]: Analyzing trace with hash 1538877326, now seen corresponding path program 1 times [2023-11-24 02:37:46,148 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:46,149 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [2048077439] [2023-11-24 02:37:46,149 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:46,149 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:46,149 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:46,185 INFO L229 MonitoredProcess]: Starting monitored process 3 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:46,192 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (3)] Waiting until timeout for monitored process [2023-11-24 02:37:46,275 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:46,278 INFO L262 TraceCheckSpWp]: Trace formula consists of 93 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:46,282 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:46,302 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:46,304 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:46,305 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:46,305 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [2048077439] [2023-11-24 02:37:46,306 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [2048077439] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:46,306 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:46,306 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:46,307 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [721563188] [2023-11-24 02:37:46,308 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:46,311 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:46,311 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:46,329 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:46,329 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:46,330 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,332 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:46,333 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 23.5) internal successors, (47), 2 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:46,333 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,357 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,362 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (3)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:46,561 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 3 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:46,561 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:46,562 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:46,562 INFO L85 PathProgramCache]: Analyzing trace with hash -1428784447, now seen corresponding path program 1 times [2023-11-24 02:37:46,563 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:46,563 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1535218585] [2023-11-24 02:37:46,563 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:46,563 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:46,563 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:46,565 INFO L229 MonitoredProcess]: Starting monitored process 4 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:46,566 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (4)] Waiting until timeout for monitored process [2023-11-24 02:37:46,634 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:46,636 INFO L262 TraceCheckSpWp]: Trace formula consists of 92 conjuncts, 2 conjunts are in the unsatisfiable core [2023-11-24 02:37:46,637 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:46,648 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:46,648 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:46,648 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:46,648 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1535218585] [2023-11-24 02:37:46,649 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1535218585] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:46,649 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:46,649 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:46,649 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [413425780] [2023-11-24 02:37:46,649 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:46,650 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:37:46,650 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:46,651 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:37:46,651 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:37:46,651 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,652 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:46,652 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.0) internal successors, (46), 3 states have internal predecessors, (46), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:46,652 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,652 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,703 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:46,704 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:46,723 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (4)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:46,907 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 4 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:46,907 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:46,908 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:46,908 INFO L85 PathProgramCache]: Analyzing trace with hash -903325548, now seen corresponding path program 1 times [2023-11-24 02:37:46,909 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:46,909 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [543461411] [2023-11-24 02:37:46,909 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:46,909 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:46,909 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:46,910 INFO L229 MonitoredProcess]: Starting monitored process 5 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:46,941 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (5)] Waiting until timeout for monitored process [2023-11-24 02:37:47,014 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:47,016 INFO L262 TraceCheckSpWp]: Trace formula consists of 125 conjuncts, 10 conjunts are in the unsatisfiable core [2023-11-24 02:37:47,021 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:47,245 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:47,246 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:37:47,441 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:47,442 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:47,442 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [543461411] [2023-11-24 02:37:47,442 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [543461411] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:37:47,442 INFO L185 FreeRefinementEngine]: Found 0 perfect and 2 imperfect interpolant sequences. [2023-11-24 02:37:47,442 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [11, 8] total 17 [2023-11-24 02:37:47,442 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [265886361] [2023-11-24 02:37:47,442 INFO L85 oduleStraightlineAll]: Using 2 imperfect interpolants to construct interpolant automaton [2023-11-24 02:37:47,443 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 17 states [2023-11-24 02:37:47,443 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:47,443 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 17 interpolants. [2023-11-24 02:37:47,444 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=72, Invalid=200, Unknown=0, NotChecked=0, Total=272 [2023-11-24 02:37:47,444 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:47,444 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:47,445 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 17 states, 17 states have (on average 6.176470588235294) internal successors, (105), 17 states have internal predecessors, (105), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:47,445 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:47,445 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:47,445 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:47,711 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:47,712 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:47,713 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 15 states. [2023-11-24 02:37:47,714 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:37:47,719 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (5)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:47,918 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 5 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:47,926 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:37:47,930 INFO L307 ceAbstractionStarter]: Result for error location threadThread1of1ForFork0 was SAFE (1/2) [2023-11-24 02:37:47,932 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:47,932 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:47,933 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:47,936 INFO L229 MonitoredProcess]: Starting monitored process 6 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:47,941 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:47,942 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:37:47,942 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (6)] Waiting until timeout for monitored process [2023-11-24 02:37:47,942 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:47,943 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:37:47,957 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:47,957 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:47,957 INFO L85 PathProgramCache]: Analyzing trace with hash 819346595, now seen corresponding path program 1 times [2023-11-24 02:37:47,958 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:47,958 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [961196169] [2023-11-24 02:37:47,958 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:47,958 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:47,958 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:47,976 INFO L229 MonitoredProcess]: Starting monitored process 7 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:47,980 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (7)] Waiting until timeout for monitored process [2023-11-24 02:37:48,029 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:48,030 INFO L262 TraceCheckSpWp]: Trace formula consists of 65 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:48,030 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:48,032 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:48,032 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:48,032 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:48,032 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [961196169] [2023-11-24 02:37:48,032 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [961196169] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:48,032 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:48,032 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:48,032 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1256327724] [2023-11-24 02:37:48,032 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:48,032 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:48,033 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:48,033 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:48,033 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:48,033 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,033 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:48,034 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:48,034 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,036 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,042 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (7)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:48,236 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 7 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:48,236 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:48,237 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:48,237 INFO L85 PathProgramCache]: Analyzing trace with hash 63251350, now seen corresponding path program 1 times [2023-11-24 02:37:48,237 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:48,237 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [2093843335] [2023-11-24 02:37:48,237 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:48,237 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:48,238 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:48,238 INFO L229 MonitoredProcess]: Starting monitored process 8 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:48,242 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (8)] Waiting until timeout for monitored process [2023-11-24 02:37:48,296 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:48,298 INFO L262 TraceCheckSpWp]: Trace formula consists of 64 conjuncts, 11 conjunts are in the unsatisfiable core [2023-11-24 02:37:48,303 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:48,327 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 7 [2023-11-24 02:37:48,336 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 22 [2023-11-24 02:37:48,356 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:48,356 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 30 treesize of output 36 [2023-11-24 02:37:48,384 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:48,384 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 39 treesize of output 50 [2023-11-24 02:37:48,416 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:48,417 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:48,417 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:48,417 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [2093843335] [2023-11-24 02:37:48,417 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [2093843335] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:48,417 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:48,417 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:37:48,417 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [714620699] [2023-11-24 02:37:48,418 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:48,418 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:37:48,418 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:48,418 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:37:48,419 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:37:48,419 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,419 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:48,419 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:48,419 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,419 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,480 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:48,480 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:37:48,487 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (8)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:48,683 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 8 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:48,684 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:48,684 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:48,684 INFO L85 PathProgramCache]: Analyzing trace with hash -487264791, now seen corresponding path program 1 times [2023-11-24 02:37:48,684 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:48,684 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1557363675] [2023-11-24 02:37:48,685 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:48,685 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:48,685 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:48,686 INFO L229 MonitoredProcess]: Starting monitored process 9 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:48,688 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (9)] Waiting until timeout for monitored process [2023-11-24 02:37:48,760 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:48,760 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:37:48,790 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:48,813 INFO L130 FreeRefinementEngine]: Strategy WOLF found a feasible trace [2023-11-24 02:37:48,813 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:37:48,813 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:37:48,813 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:37:48,814 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:37:48,814 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:37:48,814 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:37:48,814 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:37:48,820 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (9)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:49,014 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 9 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,017 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:37:49,017 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (2/2) [2023-11-24 02:37:49,018 WARN L233 ceAbstractionStarter]: 1 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:37:49,018 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 2 thread instances. [2023-11-24 02:37:49,045 INFO L144 ThreadInstanceAdder]: Constructed 2 joinOtherThreadTransitions. [2023-11-24 02:37:49,047 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:49,047 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:49,047 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:49,048 INFO L229 MonitoredProcess]: Starting monitored process 10 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:49,049 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (10)] Waiting until timeout for monitored process [2023-11-24 02:37:49,051 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:49,051 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of2ForFork0 ======== [2023-11-24 02:37:49,052 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:49,052 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:37:49,130 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:49,130 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:49,130 INFO L85 PathProgramCache]: Analyzing trace with hash -821769449, now seen corresponding path program 1 times [2023-11-24 02:37:49,131 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:49,131 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1745231892] [2023-11-24 02:37:49,131 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:49,131 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,131 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:49,145 INFO L229 MonitoredProcess]: Starting monitored process 11 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:49,149 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (11)] Waiting until timeout for monitored process [2023-11-24 02:37:49,205 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:49,206 INFO L262 TraceCheckSpWp]: Trace formula consists of 93 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:49,207 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:49,222 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:49,222 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:49,222 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:49,222 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1745231892] [2023-11-24 02:37:49,222 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1745231892] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:49,222 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:49,223 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:49,223 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1921709127] [2023-11-24 02:37:49,223 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:49,223 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:49,223 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:49,228 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:49,228 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:49,228 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,231 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:49,231 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 23.5) internal successors, (47), 2 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:49,231 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,238 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,244 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (11)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:49,440 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 11 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,441 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:49,441 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:49,441 INFO L85 PathProgramCache]: Analyzing trace with hash 105837200, now seen corresponding path program 1 times [2023-11-24 02:37:49,441 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:49,442 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1926178969] [2023-11-24 02:37:49,442 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:49,442 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,442 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:49,443 INFO L229 MonitoredProcess]: Starting monitored process 12 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:49,446 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (12)] Waiting until timeout for monitored process [2023-11-24 02:37:49,507 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:49,508 INFO L262 TraceCheckSpWp]: Trace formula consists of 92 conjuncts, 2 conjunts are in the unsatisfiable core [2023-11-24 02:37:49,509 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:49,514 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:49,514 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:49,515 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:49,515 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1926178969] [2023-11-24 02:37:49,515 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1926178969] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:49,515 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:49,515 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:49,515 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [733431204] [2023-11-24 02:37:49,515 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:49,516 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:37:49,516 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:49,516 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:37:49,517 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:37:49,517 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,517 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:49,517 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.0) internal successors, (46), 3 states have internal predecessors, (46), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:49,517 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,518 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,576 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,577 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:49,591 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (12)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:49,780 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 12 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,780 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:49,780 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:49,780 INFO L85 PathProgramCache]: Analyzing trace with hash -405956573, now seen corresponding path program 1 times [2023-11-24 02:37:49,781 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:49,781 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1225094046] [2023-11-24 02:37:49,781 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:49,781 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:49,781 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:49,782 INFO L229 MonitoredProcess]: Starting monitored process 13 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:49,785 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (13)] Waiting until timeout for monitored process [2023-11-24 02:37:49,880 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:49,882 INFO L262 TraceCheckSpWp]: Trace formula consists of 167 conjuncts, 3 conjunts are in the unsatisfiable core [2023-11-24 02:37:49,884 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:49,887 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 9 [2023-11-24 02:37:49,941 INFO L134 CoverageAnalysis]: Checked inductivity of 35 backedges. 20 proven. 0 refuted. 0 times theorem prover too weak. 15 trivial. 0 not checked. [2023-11-24 02:37:49,941 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:49,941 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:49,941 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1225094046] [2023-11-24 02:37:49,941 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1225094046] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:49,941 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:49,941 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:37:49,941 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1676979030] [2023-11-24 02:37:49,942 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:49,942 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:37:49,942 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:49,942 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:37:49,943 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:37:49,943 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,943 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:49,943 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 23.666666666666668) internal successors, (71), 3 states have internal predecessors, (71), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:49,943 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:49,943 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:49,943 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:50,024 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:50,024 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:50,025 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:50,035 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (13)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:50,228 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 13 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:50,228 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:50,228 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:50,229 INFO L85 PathProgramCache]: Analyzing trace with hash 1751066204, now seen corresponding path program 1 times [2023-11-24 02:37:50,229 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:50,229 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [2010152471] [2023-11-24 02:37:50,229 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:50,229 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:50,229 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:50,230 INFO L229 MonitoredProcess]: Starting monitored process 14 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:50,256 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (14)] Waiting until timeout for monitored process [2023-11-24 02:37:50,312 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:50,314 INFO L262 TraceCheckSpWp]: Trace formula consists of 164 conjuncts, 13 conjunts are in the unsatisfiable core [2023-11-24 02:37:50,316 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:50,583 INFO L134 CoverageAnalysis]: Checked inductivity of 19 backedges. 0 proven. 19 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:50,583 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:37:51,041 INFO L134 CoverageAnalysis]: Checked inductivity of 19 backedges. 0 proven. 19 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:51,041 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:51,041 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [2010152471] [2023-11-24 02:37:51,041 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [2010152471] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:37:51,041 INFO L185 FreeRefinementEngine]: Found 0 perfect and 2 imperfect interpolant sequences. [2023-11-24 02:37:51,042 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [14, 11] total 23 [2023-11-24 02:37:51,042 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1928685623] [2023-11-24 02:37:51,042 INFO L85 oduleStraightlineAll]: Using 2 imperfect interpolants to construct interpolant automaton [2023-11-24 02:37:51,042 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 23 states [2023-11-24 02:37:51,042 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:51,042 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 23 interpolants. [2023-11-24 02:37:51,043 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=133, Invalid=373, Unknown=0, NotChecked=0, Total=506 [2023-11-24 02:37:51,043 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,043 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:51,043 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 23 states, 23 states have (on average 6.043478260869565) internal successors, (139), 23 states have internal predecessors, (139), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:51,043 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,043 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:51,043 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:51,043 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,664 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,664 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:51,664 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:51,665 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 21 states. [2023-11-24 02:37:51,665 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:37:51,671 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (14)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:51,868 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 14 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:51,872 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1, 1] [2023-11-24 02:37:51,872 INFO L307 ceAbstractionStarter]: Result for error location threadThread1of2ForFork0 was SAFE (1/3) [2023-11-24 02:37:51,874 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:51,874 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:51,874 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:51,876 INFO L229 MonitoredProcess]: Starting monitored process 15 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:51,884 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (15)] Waiting until timeout for monitored process [2023-11-24 02:37:51,886 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:51,886 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:37:51,886 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:51,886 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:37:51,899 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:51,899 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:51,899 INFO L85 PathProgramCache]: Analyzing trace with hash 443161437, now seen corresponding path program 1 times [2023-11-24 02:37:51,899 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:51,899 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1141178795] [2023-11-24 02:37:51,899 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:51,899 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:51,900 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:51,901 INFO L229 MonitoredProcess]: Starting monitored process 16 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:51,934 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (16)] Waiting until timeout for monitored process [2023-11-24 02:37:51,964 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:51,965 INFO L262 TraceCheckSpWp]: Trace formula consists of 65 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:51,966 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:51,967 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:51,967 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:51,967 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:51,967 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1141178795] [2023-11-24 02:37:51,967 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1141178795] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:51,967 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:51,968 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:51,968 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1513438456] [2023-11-24 02:37:51,968 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:51,968 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:51,969 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:51,969 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:51,969 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:51,969 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,970 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:51,970 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:51,970 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,971 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:51,979 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (16)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:52,173 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 16 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:52,174 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:52,174 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:52,174 INFO L85 PathProgramCache]: Analyzing trace with hash -780167658, now seen corresponding path program 1 times [2023-11-24 02:37:52,175 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:52,175 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1661150981] [2023-11-24 02:37:52,175 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:52,175 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:52,175 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:52,176 INFO L229 MonitoredProcess]: Starting monitored process 17 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:52,207 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (17)] Waiting until timeout for monitored process [2023-11-24 02:37:52,238 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:52,239 INFO L262 TraceCheckSpWp]: Trace formula consists of 64 conjuncts, 11 conjunts are in the unsatisfiable core [2023-11-24 02:37:52,241 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:52,250 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 7 [2023-11-24 02:37:52,256 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 22 [2023-11-24 02:37:52,270 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:52,270 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 30 treesize of output 36 [2023-11-24 02:37:52,292 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:52,292 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 39 treesize of output 50 [2023-11-24 02:37:52,313 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:52,313 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:52,313 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:52,313 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1661150981] [2023-11-24 02:37:52,314 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1661150981] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:52,314 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:52,314 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:37:52,314 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1607391946] [2023-11-24 02:37:52,314 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:52,314 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:37:52,314 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:52,315 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:37:52,315 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:37:52,315 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:52,315 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:52,315 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:52,315 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:52,315 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:52,388 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:52,389 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:37:52,392 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (17)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:52,592 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 17 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:52,592 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:52,592 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:52,592 INFO L85 PathProgramCache]: Analyzing trace with hash 1439004842, now seen corresponding path program 1 times [2023-11-24 02:37:52,592 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:52,593 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [171797154] [2023-11-24 02:37:52,593 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:52,593 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:52,593 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:52,594 INFO L229 MonitoredProcess]: Starting monitored process 18 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:52,594 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (18)] Waiting until timeout for monitored process [2023-11-24 02:37:52,697 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:52,697 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:37:52,741 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:52,761 INFO L130 FreeRefinementEngine]: Strategy WOLF found a feasible trace [2023-11-24 02:37:52,761 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:37:52,761 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:37:52,761 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:37:52,761 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:37:52,762 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:37:52,762 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:37:52,762 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:37:52,769 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (18)] Ended with exit code 0 [2023-11-24 02:37:52,962 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 18 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:52,964 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:37:52,964 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (2/3) [2023-11-24 02:37:52,964 WARN L233 ceAbstractionStarter]: 2 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:37:52,964 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 3 thread instances. [2023-11-24 02:37:52,977 INFO L144 ThreadInstanceAdder]: Constructed 3 joinOtherThreadTransitions. [2023-11-24 02:37:52,980 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:52,980 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:52,980 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:53,000 INFO L229 MonitoredProcess]: Starting monitored process 19 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:53,002 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (19)] Waiting until timeout for monitored process [2023-11-24 02:37:53,004 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:53,004 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == ULTIMATE.start ======== [2023-11-24 02:37:53,005 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:53,005 INFO L358 AbstractCegarLoop]: Starting to check reachability of 6 error locations. [2023-11-24 02:37:53,016 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:53,017 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:53,017 INFO L85 PathProgramCache]: Analyzing trace with hash -1406076904, now seen corresponding path program 1 times [2023-11-24 02:37:53,017 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:53,017 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [839921013] [2023-11-24 02:37:53,017 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:53,017 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:53,017 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:53,019 INFO L229 MonitoredProcess]: Starting monitored process 20 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:53,055 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (20)] Waiting until timeout for monitored process [2023-11-24 02:37:53,084 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:53,084 INFO L262 TraceCheckSpWp]: Trace formula consists of 65 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:53,085 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:53,095 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:53,095 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:53,095 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:53,095 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [839921013] [2023-11-24 02:37:53,095 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [839921013] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:53,095 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:53,095 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:53,095 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1983061311] [2023-11-24 02:37:53,095 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:53,096 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:53,096 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:53,096 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:53,096 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:53,096 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,097 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:53,097 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 18.5) internal successors, (37), 2 states have internal predecessors, (37), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:53,097 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,097 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,102 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (20)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:53,298 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 20 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:53,298 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:53,298 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:53,298 INFO L85 PathProgramCache]: Analyzing trace with hash 1238389462, now seen corresponding path program 1 times [2023-11-24 02:37:53,299 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:53,299 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1272959642] [2023-11-24 02:37:53,299 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:53,299 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:53,299 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:53,300 INFO L229 MonitoredProcess]: Starting monitored process 21 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:53,301 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (21)] Waiting until timeout for monitored process [2023-11-24 02:37:53,363 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:53,364 INFO L262 TraceCheckSpWp]: Trace formula consists of 64 conjuncts, 11 conjunts are in the unsatisfiable core [2023-11-24 02:37:53,376 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:53,380 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 7 [2023-11-24 02:37:53,385 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 22 [2023-11-24 02:37:53,398 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:53,398 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 30 treesize of output 36 [2023-11-24 02:37:53,418 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:37:53,418 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 39 treesize of output 50 [2023-11-24 02:37:53,438 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:53,438 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:53,438 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:53,438 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1272959642] [2023-11-24 02:37:53,438 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1272959642] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:53,438 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:53,439 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [5] imperfect sequences [] total 5 [2023-11-24 02:37:53,439 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [529208794] [2023-11-24 02:37:53,439 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:53,439 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 6 states [2023-11-24 02:37:53,439 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:53,439 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2023-11-24 02:37:53,439 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=15, Invalid=15, Unknown=0, NotChecked=0, Total=30 [2023-11-24 02:37:53,439 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,440 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:53,440 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 6 states, 5 states have (on average 7.2) internal successors, (36), 6 states have internal predecessors, (36), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:53,440 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,440 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,518 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:53,518 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2023-11-24 02:37:53,523 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (21)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:53,721 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 21 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:53,721 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES === [ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE, ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (and 3 more)] === [2023-11-24 02:37:53,721 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:53,721 INFO L85 PathProgramCache]: Analyzing trace with hash 2056213757, now seen corresponding path program 1 times [2023-11-24 02:37:53,722 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:53,722 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1275660562] [2023-11-24 02:37:53,722 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:53,722 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:53,722 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:53,723 INFO L229 MonitoredProcess]: Starting monitored process 22 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:53,754 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (22)] Waiting until timeout for monitored process [2023-11-24 02:37:53,845 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:53,845 INFO L356 TraceCheck]: Trace is feasible, we will do another trace check, this time with branch encoders. [2023-11-24 02:37:53,902 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2023-11-24 02:37:53,935 INFO L130 FreeRefinementEngine]: Strategy WOLF found a feasible trace [2023-11-24 02:37:53,935 INFO L360 BasicCegarLoop]: Counterexample is feasible [2023-11-24 02:37:53,935 INFO L805 garLoopResultBuilder]: Registering result UNSAFE for location ULTIMATE.startErr0INUSE_VIOLATIONSUFFICIENT_THREAD_INSTANCES (5 of 6 remaining) [2023-11-24 02:37:53,935 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr0ASSERT_VIOLATIONDATA_RACE (4 of 6 remaining) [2023-11-24 02:37:53,936 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr1ASSERT_VIOLATIONDATA_RACE (3 of 6 remaining) [2023-11-24 02:37:53,936 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr3ASSERT_VIOLATIONDATA_RACE (2 of 6 remaining) [2023-11-24 02:37:53,936 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr4ASSERT_VIOLATIONDATA_RACE (1 of 6 remaining) [2023-11-24 02:37:53,936 INFO L805 garLoopResultBuilder]: Registering result UNKNOWN for location ULTIMATE.startErr2ASSERT_VIOLATIONDATA_RACE (0 of 6 remaining) [2023-11-24 02:37:53,944 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (22)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:54,136 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 22 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:54,138 INFO L445 BasicCegarLoop]: Path program histogram: [1, 1, 1] [2023-11-24 02:37:54,138 INFO L307 ceAbstractionStarter]: Result for error location ULTIMATE.start was UNSAFE,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN (1/4) [2023-11-24 02:37:54,138 WARN L233 ceAbstractionStarter]: 3 thread instances were not sufficient, I will increase this number and restart the analysis [2023-11-24 02:37:54,138 INFO L514 ceAbstractionStarter]: Constructing petrified ICFG for 4 thread instances. [2023-11-24 02:37:54,160 INFO L144 ThreadInstanceAdder]: Constructed 4 joinOtherThreadTransitions. [2023-11-24 02:37:54,161 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:54,162 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:37:54,162 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:37:54,162 INFO L229 MonitoredProcess]: Starting monitored process 23 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:37:54,164 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (23)] Waiting until timeout for monitored process [2023-11-24 02:37:54,165 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:37:54,165 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread3of4ForFork0 ======== [2023-11-24 02:37:54,165 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:37:54,166 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:37:54,248 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:54,249 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:54,249 INFO L85 PathProgramCache]: Analyzing trace with hash -1852050587, now seen corresponding path program 1 times [2023-11-24 02:37:54,249 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:54,249 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [243315775] [2023-11-24 02:37:54,249 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:54,249 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:54,250 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:54,253 INFO L229 MonitoredProcess]: Starting monitored process 24 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:54,257 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (24)] Waiting until timeout for monitored process [2023-11-24 02:37:54,345 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:54,348 INFO L262 TraceCheckSpWp]: Trace formula consists of 171 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:37:54,349 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:54,350 INFO L134 CoverageAnalysis]: Checked inductivity of 39 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:37:54,350 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:54,350 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:54,351 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [243315775] [2023-11-24 02:37:54,351 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [243315775] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:54,351 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:54,351 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:54,351 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1550479339] [2023-11-24 02:37:54,351 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:54,351 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:37:54,351 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:54,352 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:37:54,352 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:37:54,352 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:54,352 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:54,353 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 27.5) internal successors, (55), 2 states have internal predecessors, (55), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:54,353 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:54,363 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:54,373 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (24)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:54,563 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 24 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:54,564 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:54,564 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:54,564 INFO L85 PathProgramCache]: Analyzing trace with hash -1046745073, now seen corresponding path program 1 times [2023-11-24 02:37:54,564 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:54,564 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1064248264] [2023-11-24 02:37:54,565 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:54,565 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:54,565 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:54,566 INFO L229 MonitoredProcess]: Starting monitored process 25 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:54,567 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (25)] Waiting until timeout for monitored process [2023-11-24 02:37:54,654 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:54,658 INFO L262 TraceCheckSpWp]: Trace formula consists of 170 conjuncts, 2 conjunts are in the unsatisfiable core [2023-11-24 02:37:54,674 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:54,683 INFO L134 CoverageAnalysis]: Checked inductivity of 39 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:37:54,683 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:54,683 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:54,683 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1064248264] [2023-11-24 02:37:54,683 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1064248264] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:54,684 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:54,684 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:37:54,684 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [349008982] [2023-11-24 02:37:54,684 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:54,684 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:37:54,684 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:54,685 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:37:54,685 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:37:54,685 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:54,685 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:54,685 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 27.0) internal successors, (54), 3 states have internal predecessors, (54), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:54,685 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:54,686 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,264 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,264 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:55,280 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (25)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:55,467 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 25 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:55,467 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:55,468 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:55,468 INFO L85 PathProgramCache]: Analyzing trace with hash -1548445623, now seen corresponding path program 1 times [2023-11-24 02:37:55,468 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:55,468 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [337941405] [2023-11-24 02:37:55,468 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:55,468 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:55,468 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:55,469 INFO L229 MonitoredProcess]: Starting monitored process 26 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:55,501 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (26)] Waiting until timeout for monitored process [2023-11-24 02:37:55,573 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:55,576 INFO L262 TraceCheckSpWp]: Trace formula consists of 206 conjuncts, 3 conjunts are in the unsatisfiable core [2023-11-24 02:37:55,577 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:55,582 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 9 [2023-11-24 02:37:55,615 INFO L134 CoverageAnalysis]: Checked inductivity of 78 backedges. 39 proven. 0 refuted. 0 times theorem prover too weak. 39 trivial. 0 not checked. [2023-11-24 02:37:55,615 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:37:55,615 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:55,615 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [337941405] [2023-11-24 02:37:55,615 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [337941405] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:37:55,615 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:37:55,615 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:37:55,615 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1226290808] [2023-11-24 02:37:55,616 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:37:55,616 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:37:55,616 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:55,616 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:37:55,616 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:37:55,616 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,617 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:55,618 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 25.333333333333332) internal successors, (76), 3 states have internal predecessors, (76), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:55,618 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,618 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:55,618 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,845 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:55,845 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:55,846 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:55,865 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (26)] Forceful destruction successful, exit code 0 [2023-11-24 02:37:56,049 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 26 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:56,049 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:37:56,050 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:37:56,050 INFO L85 PathProgramCache]: Analyzing trace with hash 1100677356, now seen corresponding path program 1 times [2023-11-24 02:37:56,050 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:37:56,050 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [182327138] [2023-11-24 02:37:56,050 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:37:56,050 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:37:56,050 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:37:56,058 INFO L229 MonitoredProcess]: Starting monitored process 27 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:37:56,079 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (27)] Waiting until timeout for monitored process [2023-11-24 02:37:56,193 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:37:56,208 INFO L262 TraceCheckSpWp]: Trace formula consists of 242 conjuncts, 17 conjunts are in the unsatisfiable core [2023-11-24 02:37:56,210 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:37:56,641 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 0 proven. 106 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:56,641 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:37:57,415 INFO L134 CoverageAnalysis]: Checked inductivity of 106 backedges. 0 proven. 106 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:37:57,415 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:37:57,415 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [182327138] [2023-11-24 02:37:57,415 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [182327138] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:37:57,415 INFO L185 FreeRefinementEngine]: Found 0 perfect and 2 imperfect interpolant sequences. [2023-11-24 02:37:57,415 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [18, 15] total 31 [2023-11-24 02:37:57,415 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1474655051] [2023-11-24 02:37:57,415 INFO L85 oduleStraightlineAll]: Using 2 imperfect interpolants to construct interpolant automaton [2023-11-24 02:37:57,416 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 31 states [2023-11-24 02:37:57,416 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:37:57,416 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 31 interpolants. [2023-11-24 02:37:57,417 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=238, Invalid=692, Unknown=0, NotChecked=0, Total=930 [2023-11-24 02:37:57,417 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:57,417 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:37:57,417 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 31 states, 31 states have (on average 6.67741935483871) internal successors, (207), 31 states have internal predecessors, (207), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:37:57,417 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:37:57,418 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:57,418 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:37:57,418 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:00,984 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:00,984 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:00,984 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:00,985 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 27 states. [2023-11-24 02:38:00,991 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (27)] Forceful destruction successful, exit code 0 [2023-11-24 02:38:01,185 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 27 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:38:01,185 INFO L420 AbstractCegarLoop]: === Iteration 5 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:38:01,186 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:38:01,186 INFO L85 PathProgramCache]: Analyzing trace with hash 346057349, now seen corresponding path program 1 times [2023-11-24 02:38:01,186 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:38:01,186 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [645460407] [2023-11-24 02:38:01,186 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:38:01,186 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:38:01,186 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:38:01,187 INFO L229 MonitoredProcess]: Starting monitored process 28 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:38:01,220 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (28)] Waiting until timeout for monitored process [2023-11-24 02:38:01,380 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:38:01,386 INFO L262 TraceCheckSpWp]: Trace formula consists of 368 conjuncts, 43 conjunts are in the unsatisfiable core [2023-11-24 02:38:01,389 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:38:01,392 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 6 treesize of output 7 [2023-11-24 02:38:01,403 INFO L349 Elim1Store]: treesize reduction 6, result has 40.0 percent of original size [2023-11-24 02:38:01,404 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 13 treesize of output 13 [2023-11-24 02:38:01,528 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:01,528 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 41 treesize of output 38 [2023-11-24 02:38:01,531 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:01,762 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:01,762 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 41 treesize of output 38 [2023-11-24 02:38:01,766 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:02,075 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:02,076 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 62 treesize of output 55 [2023-11-24 02:38:02,079 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 13 [2023-11-24 02:38:02,084 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:02,414 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:02,414 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 81 treesize of output 70 [2023-11-24 02:38:02,417 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 2 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 41 treesize of output 17 [2023-11-24 02:38:02,422 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:02,980 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 29 treesize of output 17 [2023-11-24 02:38:02,990 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 7 treesize of output 3 [2023-11-24 02:38:03,049 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 17 treesize of output 9 [2023-11-24 02:38:03,107 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 119 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:38:03,107 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:38:03,803 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (bvadd (_ bv8 32) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) is different from false [2023-11-24 02:38:03,850 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (bvadd (_ bv8 32) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) is different from false [2023-11-24 02:38:03,866 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (bvadd (_ bv8 32) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) is different from false [2023-11-24 02:38:03,909 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 406 treesize of output 366 [2023-11-24 02:38:04,038 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse2 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse3 (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse2))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_768))) (let ((.cse4 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (select (select (store .cse6 .cse4 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse1 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_769))) (let ((.cse0 (select (select (store .cse1 .cse4 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) .cse0) (bvadd (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2))) (not (= .cse3 (bvadd (_ bv8 32) .cse0))))))) (not (= |c_ULTIMATE.start_main_#t~mem11#1.base| .cse5)) (not (= .cse4 .cse5))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse3 (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse8 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_768))) (let ((.cse7 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse3 (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_769) .cse7 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= |c_ULTIMATE.start_main_#t~mem11#1.base| (select (select (store .cse8 .cse7 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) (not (= |c_ULTIMATE.start_main_#t~pre10#1| c_threadThread2of4ForFork0_thidvar0))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= |c_ULTIMATE.start_main_#t~mem11#1.base| (select (select (let ((.cse9 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_768))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))) is different from false [2023-11-24 02:38:04,428 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse1 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse4 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769))) (let ((.cse0 (select (select (store .cse2 .cse4 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv8 32) .cse0) .cse1)) (not (= (bvadd (_ bv4 32) .cse0) (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3))))))) (not (= (select (select (store .cse6 .cse4 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (store .cse7 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse1)) (or (not (= |c_ULTIMATE.start_main_#t~pre10#1| c_threadThread2of4ForFork0_thidvar0)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse8 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) .cse8 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse1)) (not (= (select (select (store .cse9 .cse8 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))))))) is different from false [2023-11-24 02:38:04,556 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse1 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse4 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769))) (let ((.cse0 (select (select (store .cse2 .cse4 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv8 32) .cse0) .cse1)) (not (= (bvadd (_ bv4 32) .cse0) (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3))))))) (not (= (select (select (store .cse6 .cse4 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (store .cse7 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse8 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) .cse8 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse1)) (not (= (select (select (store .cse9 .cse8 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))) (not (= |c_#pthreadsForks| c_threadThread2of4ForFork0_thidvar0))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (bvadd (_ bv8 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse1))))) is different from false [2023-11-24 02:38:04,756 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse0 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|))) (let ((.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse4 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse1 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769))) (let ((.cse2 (select (select (store .cse1 .cse4 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd .cse0 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse2)) (not (= (bvadd (_ bv4 32) .cse2) .cse3)))))) (not (= (select (select (store .cse6 .cse4 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))) (or (not (= |c_#pthreadsForks| c_threadThread2of4ForFork0_thidvar0)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse8 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (let ((.cse7 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) .cse7 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse3)) (not (= (select (select (store .cse8 .cse7 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse3))))) is different from false [2023-11-24 02:38:04,876 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse6 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse2 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6)) (.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (or (not (= |c_#pthreadsForks| c_threadThread2of4ForFork0_thidvar0)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse3 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (let ((.cse1 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769) .cse1 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse2)) (not (= (select (select (store .cse3 .cse1 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0))))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse8 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (let ((.cse7 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse5 (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769))) (let ((.cse4 (select (select (store .cse5 .cse7 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) .cse4) .cse2)) (not (= .cse4 (bvadd (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))) (not (= (select (select (store .cse8 .cse7 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0)))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse2)) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0))))) is different from false [2023-11-24 02:38:05,105 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse6 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse2 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6)) (.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (or (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|)) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse3 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (let ((.cse1 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769) .cse1 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse2)) (not (= (select (select (store .cse3 .cse1 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0))))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse8 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (let ((.cse7 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse5 (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769))) (let ((.cse4 (select (select (store .cse5 .cse7 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (_ bv4 32) .cse4) .cse2)) (not (= .cse4 (bvadd (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))) (not (= (select (select (store .cse8 .cse7 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0)))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (bvadd (_ bv4 32) (select (select (store (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_769) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse2)) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_768))) (store .cse9 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse0))))) is different from false [2023-11-24 02:38:05,274 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse1 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_766))) (let ((.cse2 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse0 (store .cse1 .cse2 v_ArrVal_768))) (store .cse0 (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2)))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_766))) (let ((.cse8 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse8 v_ArrVal_768))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_767))) (let ((.cse4 (store .cse6 .cse8 v_ArrVal_769))) (let ((.cse3 (select (select (store .cse4 .cse7 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse3 (bvadd (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))) (not (= (bvadd (_ bv4 32) .cse3) (bvadd (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))))) (not (= (select (select (store .cse9 .cse7 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse8)))))))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse15 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_766))) (let ((.cse12 (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store .cse15 .cse12 v_ArrVal_768))) (let ((.cse13 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse11 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_767))) (= (bvadd (_ bv4 32) (select (select (store (store .cse11 .cse12 v_ArrVal_769) .cse13 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (bvadd (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))) (not (= (select (select (store .cse14 .cse13 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)))))))) (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse16 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_767))) (= (bvadd (_ bv4 32) (select (select (let ((.cse18 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_766))) (let ((.cse17 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse16 .cse17 v_ArrVal_769) (select (select (store .cse18 .cse17 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (bvadd (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))) is different from false [2023-11-24 02:38:05,699 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) (.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse0 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse0 (select (select (let ((.cse1 (store .cse2 .cse0 v_ArrVal_768))) (store .cse1 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse4 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (= (bvadd (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5) (bvadd (select (select (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse6 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse4 .cse6 v_ArrVal_769) (select (select (store .cse7 .cse6 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32))))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse8 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse12 .cse8 v_ArrVal_768))) (let ((.cse10 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse8 (select (select (store .cse9 .cse10 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse11 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (= (bvadd (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5) (bvadd (select (select (store (store .cse11 .cse8 v_ArrVal_769) .cse10 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32))))))))))) (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_768))) (let ((.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (let ((.cse14 (store .cse15 .cse17 v_ArrVal_769))) (let ((.cse13 (select (select (store .cse14 .cse16 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse13 (bvadd (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))) (not (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5) (bvadd .cse13 (_ bv4 32))))))))) (not (= .cse17 (select (select (store .cse18 .cse16 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) is different from false [2023-11-24 02:38:06,732 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse4 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) (.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (or (not (= |c_ULTIMATE.start_main_#t~pre10#1| (bvadd |c_#pthreadsForks| (_ bv1 32)))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse6 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_766))) (let ((.cse0 (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse1 (store .cse6 .cse0 v_ArrVal_768))) (let ((.cse2 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse0 (select (select (store .cse1 .cse2 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_767))) (= (bvadd (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4) (bvadd (select (select (store (store .cse3 .cse0 v_ArrVal_769) .cse2 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32)))))))))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_766))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse7 (select (select (let ((.cse8 (store .cse9 .cse7 v_ArrVal_768))) (store .cse8 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_767))) (= (bvadd (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4) (bvadd (select (select (let ((.cse12 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_766))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse10 .cse11 v_ArrVal_769) (select (select (store .cse12 .cse11 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_766))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_768))) (let ((.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse15 (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_767))) (let ((.cse14 (store .cse15 .cse17 v_ArrVal_769))) (let ((.cse13 (select (select (store .cse14 .cse16 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse13 (bvadd (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4))) (not (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4) (bvadd .cse13 (_ bv4 32))))))))) (not (= .cse17 (select (select (store .cse18 .cse16 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) is different from false [2023-11-24 02:38:07,046 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) (.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse0 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse0 (select (select (let ((.cse1 (store .cse2 .cse0 v_ArrVal_768))) (store .cse1 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse4 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (= (bvadd (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5) (bvadd (select (select (let ((.cse7 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse6 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse4 .cse6 v_ArrVal_769) (select (select (store .cse7 .cse6 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse14 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse12 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse14 .cse12 v_ArrVal_768))) (let ((.cse11 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (let ((.cse9 (store .cse10 .cse12 v_ArrVal_769))) (let ((.cse8 (select (select (store .cse9 .cse11 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse8 (bvadd (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))) (not (= (bvadd (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5) (bvadd .cse8 (_ bv4 32))))))))) (not (= .cse12 (select (select (store .cse13 .cse11 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) is different from false [2023-11-24 02:38:07,293 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse8 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|)) (.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse0 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse0 (select (select (let ((.cse1 (store .cse2 .cse0 v_ArrVal_768))) (store .cse1 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse11 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse4 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store .cse11 .cse4 v_ArrVal_768))) (let ((.cse6 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse4 (select (select (store .cse5 .cse6 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (let ((.cse10 (store .cse9 .cse4 v_ArrVal_769))) (let ((.cse7 (select (select (store .cse10 .cse6 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse7 (bvadd .cse8 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse7 (bvadd (_ bv4 32) .cse8 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse12 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (= (select (select (let ((.cse14 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse13 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse12 .cse13 v_ArrVal_769) (select (select (store .cse14 .cse13 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd .cse8 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) is different from false [2023-11-24 02:38:07,451 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse8 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) (.cse3 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse0 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse0 (select (select (let ((.cse1 (store .cse2 .cse0 v_ArrVal_768))) (store .cse1 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse11 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse4 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store .cse11 .cse4 v_ArrVal_768))) (let ((.cse6 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse4 (select (select (store .cse5 .cse6 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse7 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (let ((.cse10 (store .cse7 .cse4 v_ArrVal_769))) (let ((.cse9 (select (select (store .cse10 .cse6 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse8) .cse9)) (not (= .cse9 (bvadd (_ bv4 32) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse8)))))))))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse12 (store |c_#memory_$Pointer$.offset| .cse3 v_ArrVal_767))) (= (bvadd (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse8) (select (select (let ((.cse14 (store |c_#memory_$Pointer$.base| .cse3 v_ArrVal_766))) (let ((.cse13 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse12 .cse13 v_ArrVal_769) (select (select (store .cse14 .cse13 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))) is different from false [2023-11-24 02:38:07,835 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse9 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (let ((.cse3 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_765))) (store .cse3 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_766)))) (let ((.cse0 (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= .cse0 (select (select (let ((.cse1 (store .cse2 .cse0 v_ArrVal_768))) (store .cse1 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse13 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_765))) (let ((.cse11 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse12 (store .cse13 .cse11 v_ArrVal_766))) (let ((.cse4 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store .cse12 .cse4 v_ArrVal_768))) (let ((.cse6 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse4 (select (select (store .cse5 .cse6 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_764) .cse11 v_ArrVal_767))) (let ((.cse8 (store .cse10 .cse4 v_ArrVal_769))) (let ((.cse7 (select (select (store .cse8 .cse6 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse7 (bvadd (_ bv4 32) (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9))) (not (= .cse7 (bvadd (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)))))))))))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_765))) (let ((.cse18 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse14 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_764) .cse18 v_ArrVal_767))) (= (select (select (let ((.cse16 (store .cse17 .cse18 v_ArrVal_766))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse14 .cse15 v_ArrVal_769) (select (select (store .cse16 .cse15 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse9)))))))) is different from false [2023-11-24 02:38:08,262 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse2 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_765))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_766))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_768))) (let ((.cse4 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse3 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_764) .cse7 v_ArrVal_767))) (let ((.cse1 (store .cse3 .cse5 v_ArrVal_769))) (let ((.cse0 (select (select (store .cse1 .cse4 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse0 (bvadd (_ bv4 32) (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2))) (not (= .cse0 (bvadd (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2)))))))) (not (= (select (select (store .cse8 .cse4 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5)))))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse14 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_765))) (let ((.cse15 (select (select .cse14 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_764) .cse15 v_ArrVal_767))) (= (select (select (let ((.cse13 (store .cse14 .cse15 v_ArrVal_766))) (let ((.cse12 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse11 .cse12 v_ArrVal_769) (select (select (store .cse13 .cse12 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse2)))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_765))) (store .cse19 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_766)))) (let ((.cse18 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse16 (store .cse17 .cse18 v_ArrVal_768))) (store .cse16 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse18)))))) is different from false [2023-11-24 02:38:08,803 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse5 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_765))) (let ((.cse6 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse6 v_ArrVal_766))) (let ((.cse4 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse4 v_ArrVal_768))) (let ((.cse3 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse1 (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_764) .cse6 v_ArrVal_767))) (let ((.cse2 (store .cse1 .cse4 v_ArrVal_769))) (let ((.cse0 (select (select (store .cse2 .cse3 v_ArrVal_772) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse0 (select (select .cse1 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (= .cse0 (bvadd (_ bv4 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) (not (= (select (select (store .cse7 .cse3 v_ArrVal_773) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)))))))))) (forall ((v_ArrVal_772 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_764 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_769 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_767 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse13 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_765))) (let ((.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse10 (store (store |c_#memory_$Pointer$.offset| .cse5 v_ArrVal_764) .cse14 v_ArrVal_767))) (= (select (select (let ((.cse12 (store .cse13 .cse14 v_ArrVal_766))) (let ((.cse11 (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (store (store .cse10 .cse11 v_ArrVal_769) (select (select (store .cse12 .cse11 v_ArrVal_768) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_772))) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))) (forall ((v_ArrVal_773 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_765 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_766 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_768 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse16 (let ((.cse18 (store |c_#memory_$Pointer$.base| .cse5 v_ArrVal_765))) (store .cse18 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_766)))) (let ((.cse17 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (let ((.cse15 (store .cse16 .cse17 v_ArrVal_768))) (store .cse15 (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_773)) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse17)))))) is different from false [2023-11-24 02:38:09,043 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 144772 treesize of output 114928 [2023-11-24 02:38:09,221 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 313598 treesize of output 299906 [2023-11-24 02:38:09,290 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 28 treesize of output 24 [2023-11-24 02:38:09,293 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 20 [2023-11-24 02:38:09,296 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 9 treesize of output 7 [2023-11-24 02:38:09,302 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 10 treesize of output 8 [2023-11-24 02:38:09,309 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 6 treesize of output 4 [2023-11-24 02:38:09,311 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 6 treesize of output 4 [2023-11-24 02:38:09,382 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 5 proven. 13 refuted. 0 times theorem prover too weak. 0 trivial. 106 not checked. [2023-11-24 02:38:09,382 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:38:09,382 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [645460407] [2023-11-24 02:38:09,382 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [645460407] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:38:09,382 INFO L185 FreeRefinementEngine]: Found 0 perfect and 2 imperfect interpolant sequences. [2023-11-24 02:38:09,382 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [26, 28] total 51 [2023-11-24 02:38:09,382 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [90837944] [2023-11-24 02:38:09,382 INFO L85 oduleStraightlineAll]: Using 2 imperfect interpolants to construct interpolant automaton [2023-11-24 02:38:09,383 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 51 states [2023-11-24 02:38:09,383 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:38:09,384 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 51 interpolants. [2023-11-24 02:38:09,384 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=145, Invalid=940, Unknown=43, NotChecked=1422, Total=2550 [2023-11-24 02:38:09,384 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:09,385 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:38:09,386 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 51 states, 51 states have (on average 6.2745098039215685) internal successors, (320), 51 states have internal predecessors, (320), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:38:09,386 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:09,386 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:09,386 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:09,386 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 27 states. [2023-11-24 02:38:09,386 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:26,276 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:38:26,276 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:26,276 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:38:26,276 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 27 states. [2023-11-24 02:38:26,276 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 35 states. [2023-11-24 02:38:26,281 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (28)] Forceful destruction successful, exit code 0 [2023-11-24 02:38:26,481 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 28 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:38:26,481 INFO L420 AbstractCegarLoop]: === Iteration 6 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:38:26,481 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:38:26,481 INFO L85 PathProgramCache]: Analyzing trace with hash -1763929091, now seen corresponding path program 2 times [2023-11-24 02:38:26,482 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:38:26,482 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [24107344] [2023-11-24 02:38:26,482 INFO L93 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST1 [2023-11-24 02:38:26,482 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:38:26,482 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:38:26,486 INFO L229 MonitoredProcess]: Starting monitored process 29 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:38:26,486 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (29)] Waiting until timeout for monitored process [2023-11-24 02:38:26,732 INFO L228 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST1 issued 2 check-sat command(s) [2023-11-24 02:38:26,732 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2023-11-24 02:38:26,738 INFO L262 TraceCheckSpWp]: Trace formula consists of 368 conjuncts, 47 conjunts are in the unsatisfiable core [2023-11-24 02:38:26,743 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:38:26,746 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 6 treesize of output 7 [2023-11-24 02:38:26,757 INFO L349 Elim1Store]: treesize reduction 6, result has 40.0 percent of original size [2023-11-24 02:38:26,758 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 13 treesize of output 13 [2023-11-24 02:38:26,996 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:26,996 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 62 treesize of output 55 [2023-11-24 02:38:27,000 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 21 treesize of output 13 [2023-11-24 02:38:27,008 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:27,496 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:27,496 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 73 treesize of output 64 [2023-11-24 02:38:27,500 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 2 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 33 treesize of output 28 [2023-11-24 02:38:27,511 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:27,963 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:27,963 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 100 treesize of output 85 [2023-11-24 02:38:27,966 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:27,971 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 2 select indices, 2 select index equivalence classes, 4 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 0 case distinctions, treesize of input 60 treesize of output 31 [2023-11-24 02:38:28,409 INFO L349 Elim1Store]: treesize reduction 19, result has 20.8 percent of original size [2023-11-24 02:38:28,410 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 100 treesize of output 85 [2023-11-24 02:38:28,414 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 2 select indices, 2 select index equivalence classes, 4 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 0 case distinctions, treesize of input 60 treesize of output 31 [2023-11-24 02:38:28,432 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 24 treesize of output 11 [2023-11-24 02:38:28,626 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 40 treesize of output 24 [2023-11-24 02:38:28,631 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 7 treesize of output 3 [2023-11-24 02:38:28,723 INFO L349 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2023-11-24 02:38:28,723 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 2 select indices, 2 select index equivalence classes, 1 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 24 treesize of output 12 [2023-11-24 02:38:28,821 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 14 proven. 106 refuted. 0 times theorem prover too weak. 4 trivial. 0 not checked. [2023-11-24 02:38:28,821 INFO L327 TraceCheckSpWp]: Computing backward predicates... [2023-11-24 02:38:29,065 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (select (select (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|) (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) is different from false [2023-11-24 02:38:29,103 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) c_threadThread2of4ForFork0_thidvar0))) is different from false [2023-11-24 02:38:29,142 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) c_threadThread2of4ForFork0_thidvar0))) is different from false [2023-11-24 02:38:29,158 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse0 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (store |c_#memory_int| .cse0 (store (select |c_#memory_int| .cse0) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|)) |ULTIMATE.start_main_#t~pre10#1|)) (select (select (store |c_#memory_$Pointer$.base| .cse0 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store |c_#memory_$Pointer$.offset| .cse0 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))) is different from false [2023-11-24 02:38:29,233 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse4 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_892))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_893)) (.cse1 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|) (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse3) |ULTIMATE.start_main_#t~pre10#1|)))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv4 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse4 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) is different from false [2023-11-24 02:38:29,459 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_892))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_893)) (.cse1 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (store |c_#memory_int| .cse4 (store (select |c_#memory_int| .cse4) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |ULTIMATE.start_main_#t~pre10#1|)))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv4 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse5 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) c_threadThread2of4ForFork0_thidvar0))) is different from false [2023-11-24 02:38:29,672 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_892))) (let ((.cse3 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_893)) (.cse1 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse2 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|))) (let ((.cse0 (store |c_#memory_int| .cse4 (store (select |c_#memory_int| .cse4) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse2) |ULTIMATE.start_main_#t~pre10#1|)))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd .cse2 (_ bv8 32) (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse5 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse3 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) c_threadThread2of4ForFork0_thidvar0))) is different from false [2023-11-24 02:38:29,767 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (|ULTIMATE.start_main_#t~pre10#1| (_ BitVec 32))) (not (= c_threadThread2of4ForFork0_thidvar0 (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_892))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_893)) (.cse1 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (store |c_#memory_int| .cse4 (store (select |c_#memory_int| .cse4) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse3) |ULTIMATE.start_main_#t~pre10#1|)))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse5 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))) is different from false [2023-11-24 02:38:29,979 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32))) (not (= (let ((.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse5 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_892))) (let ((.cse2 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_893)) (.cse1 (select (select .cse5 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (store |c_#memory_int| .cse4 (store (select |c_#memory_int| .cse4) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_55|)))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse5 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) |c_ULTIMATE.start_main_#t~pre10#1|))) is different from false [2023-11-24 02:38:30,381 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= |c_ULTIMATE.start_main_#t~pre10#1| (let ((.cse8 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_889))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse5 v_ArrVal_892)) (.cse6 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_890))) (let ((.cse2 (store .cse6 .cse5 v_ArrVal_893)) (.cse1 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (let ((.cse4 (store |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base| (store (select |c_#memory_int| |c_ULTIMATE.start_main_#t~mem11#1.base|) (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse3) |c_ULTIMATE.start_main_#t~pre10#1|)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (bvadd (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_55|))))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv8 32) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse7 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))) is different from false [2023-11-24 02:38:32,603 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (let ((.cse7 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_889))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_892)) (.cse6 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_890))) (let ((.cse2 (store .cse6 .cse5 v_ArrVal_893)) (.cse1 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (let ((.cse4 (store |c_#memory_int| .cse7 (store (select |c_#memory_int| .cse7) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |c_ULTIMATE.start_main_#t~pre10#1|)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (bvadd (_ bv4 32) (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_55|))))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse8 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) |c_ULTIMATE.start_main_#t~pre10#1|))) is different from false [2023-11-24 02:38:33,636 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (let ((.cse7 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_889))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_892)) (.cse6 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_890))) (let ((.cse2 (store .cse6 .cse5 v_ArrVal_893)) (.cse1 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (let ((.cse4 (store |c_#memory_int| .cse7 (store (select |c_#memory_int| .cse7) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |c_#pthreadsForks|)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (bvadd (_ bv4 32) (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_55|))))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse8 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) |c_#pthreadsForks|))) is different from false [2023-11-24 02:38:35,144 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (let ((.cse7 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_889))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_892)) (.cse6 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_890))) (let ((.cse3 (store .cse6 .cse5 v_ArrVal_893)) (.cse1 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse2 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_#t~post9#1|))) (let ((.cse0 (let ((.cse4 (store |c_#memory_int| .cse7 (store (select |c_#memory_int| .cse7) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse2) |c_#pthreadsForks|)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (bvadd .cse2 (_ bv8 32) (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) |v_ULTIMATE.start_main_#t~pre10#1_55|))))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd .cse2 (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse8 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse3 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))) |c_#pthreadsForks|))) is different from false [2023-11-24 02:38:35,750 WARN L854 $PredicateComparison]: unable to prove that (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (|v_ULTIMATE.start_main_#t~pre10#1_55| (_ BitVec 32)) (|v_ULTIMATE.start_main_#t~pre10#1_52| (_ BitVec 32)) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= |c_#pthreadsForks| (let ((.cse7 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse7 v_ArrVal_889))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_892)) (.cse6 (store |c_#memory_$Pointer$.offset| .cse7 v_ArrVal_890))) (let ((.cse2 (store .cse6 .cse5 v_ArrVal_893)) (.cse1 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (select (select (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (let ((.cse4 (store |c_#memory_int| .cse7 (store (select |c_#memory_int| .cse7) (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv4 32) .cse3) |c_#pthreadsForks|)))) (store .cse4 .cse5 (store (select .cse4 .cse5) (bvadd (_ bv8 32) (select (select .cse6 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_55|))))) (store .cse0 .cse1 (store (select .cse0 .cse1) (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) |v_ULTIMATE.start_main_#t~pre10#1_52|)))) (select (select (store .cse8 .cse1 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store .cse2 .cse1 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) is different from false [2023-11-24 02:38:37,386 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 99944 treesize of output 97416 [2023-11-24 02:38:44,435 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse1 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse10 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse14 (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse1))) (and (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse7 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (store .cse8 .cse6 v_ArrVal_892)) (.cse0 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse3 (store (store .cse0 .cse7 v_ArrVal_890) .cse6 v_ArrVal_893)) (.cse5 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (select (select (store .cse3 .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse2) (= (bvadd (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse2) (= (select (select (store .cse4 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6)))))))))) .cse10) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse20 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse13 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse19 (store .cse20 .cse13 v_ArrVal_889))) (let ((.cse18 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse19 .cse18 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse13) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse13 v_ArrVal_890))) (let ((.cse16 (store .cse17 .cse18 v_ArrVal_893))) (let ((.cse15 (select (select (store .cse16 .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse15) (= (bvadd (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse15) (= .cse15 (bvadd (_ bv8 32) (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse30 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse28 (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse30 .cse28 v_ArrVal_889))) (let ((.cse21 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse25 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse23 (store .cse29 .cse25 v_ArrVal_892)) (.cse27 (store .cse21 .cse28 v_ArrVal_890))) (let ((.cse26 (store .cse27 .cse25 v_ArrVal_893)) (.cse24 (select (select .cse23 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (select (select (store .cse26 .cse24 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse22) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse23 .cse24 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse25))) (= (bvadd (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse22) (not (= .cse22 (bvadd (_ bv8 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))) (or (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse31 (let ((.cse33 (let ((.cse34 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse34 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse33 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse32 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse32 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse32)))) .cse10) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse41 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse36 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse36 v_ArrVal_889))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse40 .cse37 v_ArrVal_892))) (let ((.cse38 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse35 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse35 .cse36 v_ArrVal_890) .cse37 v_ArrVal_893) .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse39 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38))))))))) .cse10) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse49 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse48 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse46 (store .cse49 .cse48 v_ArrVal_889)) (.cse42 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse45 (store .cse42 .cse48 v_ArrVal_890)) (.cse47 (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 (select (select (store .cse46 .cse47 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse43) (= .cse43 (bvadd (_ bv8 32) (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse57 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse56 (store .cse57 .cse54 v_ArrVal_889))) (let ((.cse55 (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse56 .cse55 v_ArrVal_892))) (let ((.cse53 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse52 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (select (select (store (store (store .cse53 .cse54 v_ArrVal_890) .cse55 v_ArrVal_893) .cse52 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse50) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse51 .cse52 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse52)) (= (bvadd (_ bv4 32) (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse50)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse63 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse63 v_ArrVal_889))) (let ((.cse64 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse61 (store .cse65 .cse64 v_ArrVal_892)) (.cse58 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse60 (store (store .cse58 .cse63 v_ArrVal_890) .cse64 v_ArrVal_893)) (.cse62 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (select (select (store .cse60 .cse62 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse59) (not (= (bvadd (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse59)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse61 .cse62 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse74 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse69 v_ArrVal_889))) (let ((.cse68 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse68 v_ArrVal_892))) (let ((.cse71 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (select (select (store .cse72 .cse71 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse67 .cse68)) (= .cse67 .cse69) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse70 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse69 v_ArrVal_890))) (= (select (select (store (store .cse70 .cse68 v_ArrVal_893) .cse71 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd (_ bv8 32) (select (select .cse70 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse83 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse82 (store .cse83 .cse81 v_ArrVal_889))) (let ((.cse80 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (store .cse82 .cse80 v_ArrVal_892)) (.cse76 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse77 (store (store .cse76 .cse81 v_ArrVal_890) .cse80 v_ArrVal_893)) (.cse79 (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse75 (select (select (store .cse77 .cse79 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse75) (= (bvadd (_ bv4 32) (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse75) (= (bvadd (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse75) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse78 .cse79 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse80))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (let ((.cse87 (let ((.cse88 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse88 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse87 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse85 (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse84 (select (select (store .cse86 .cse85 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse84 .cse85) (= .cse84 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse98 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse94 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse94 v_ArrVal_889))) (let ((.cse93 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse96 (store .cse97 .cse93 v_ArrVal_892))) (let ((.cse92 (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (select (select (store .cse96 .cse92 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse91 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse94 v_ArrVal_890))) (let ((.cse89 (store .cse91 .cse93 v_ArrVal_893))) (let ((.cse90 (select (select (store .cse89 .cse92 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse90) (= .cse90 (bvadd (_ bv8 32) (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))) (= .cse95 .cse94) (= .cse95 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse106 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse102 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (store .cse106 .cse102 v_ArrVal_889))) (let ((.cse103 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse104 (store .cse105 .cse103 v_ArrVal_892))) (let ((.cse101 (select (select .cse104 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse102 v_ArrVal_890) .cse103 v_ArrVal_893))) (let ((.cse99 (select (select (store .cse100 .cse101 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse99) (= (bvadd (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse99))))) (= (select (select (store .cse104 .cse101 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse103))))))))) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse113 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse109 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse112 (store .cse113 .cse109 v_ArrVal_889))) (let ((.cse110 (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse111 (store .cse112 .cse110 v_ArrVal_892))) (let ((.cse108 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse107 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse109 v_ArrVal_890) .cse110 v_ArrVal_893))) (= (bvadd (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse107 .cse108 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse111 .cse108 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse110)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse121 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse118 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse121 .cse118 v_ArrVal_889))) (let ((.cse119 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse120 .cse119 v_ArrVal_892))) (let ((.cse115 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse114 (select (select (store .cse116 .cse115 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse114 .cse115) (= .cse114 |c_ULTIMATE.start_main_#t~mem11#1.base|)))) (let ((.cse117 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse117 .cse118 v_ArrVal_890) .cse119 v_ArrVal_893) .cse115 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse124 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse128 (store .cse129 .cse124 v_ArrVal_889))) (let ((.cse126 (select (select .cse128 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse127 (store .cse128 .cse126 v_ArrVal_892))) (let ((.cse123 (select (select .cse127 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse122 (select (select (store .cse127 .cse123 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse122 .cse123)) (= .cse122 .cse124) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse125 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse124 v_ArrVal_890) .cse126 v_ArrVal_893))) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse125 .cse123 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse137 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse137 v_ArrVal_889))) (let ((.cse133 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse134 (store .cse138 .cse133 v_ArrVal_892)) (.cse130 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse136 (store (store .cse130 .cse137 v_ArrVal_890) .cse133 v_ArrVal_893)) (.cse135 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse131 (select (select (store .cse136 .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse131) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse132 (select (select (store .cse134 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse132 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse132 .cse133)))) (= (bvadd (select (select .cse136 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse131)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse149 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse148 (store .cse149 .cse147 v_ArrVal_889))) (let ((.cse142 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse146 (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse140 (store .cse148 .cse146 v_ArrVal_892)) (.cse145 (store .cse142 .cse147 v_ArrVal_890))) (let ((.cse144 (store .cse145 .cse146 v_ArrVal_893)) (.cse141 (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse143 (select (select (store .cse144 .cse141 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse140 .cse141 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |c_ULTIMATE.start_main_#t~mem11#1.base|)) (= (bvadd (_ bv4 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse143) (= (bvadd (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse143) (= .cse143 (bvadd (_ bv8 32) (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse158 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse154 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse157 (store .cse158 .cse154 v_ArrVal_889))) (let ((.cse156 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse152 (store .cse157 .cse156 v_ArrVal_892)) (.cse155 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse154 v_ArrVal_890))) (let ((.cse150 (store .cse155 .cse156 v_ArrVal_893)) (.cse153 (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse151 (select (select (store .cse150 .cse153 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse151) (= (select (select (store .cse152 .cse153 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse154) (= .cse151 (bvadd (_ bv8 32) (select (select .cse155 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) .cse10) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse166 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse164 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse165 (store .cse166 .cse164 v_ArrVal_889))) (let ((.cse163 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse159 (store .cse165 .cse163 v_ArrVal_892))) (let ((.cse160 (select (select .cse159 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse159 .cse160 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse160) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse162 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse164 v_ArrVal_890))) (let ((.cse161 (select (select (store (store .cse162 .cse163 v_ArrVal_893) .cse160 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse161) (= .cse161 (bvadd (_ bv8 32) (select (select .cse162 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse173 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse168 (select (select .cse173 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse172 (store .cse173 .cse168 v_ArrVal_889))) (let ((.cse169 (select (select .cse172 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (store .cse172 .cse169 v_ArrVal_892))) (let ((.cse170 (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse167 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse167 .cse168 v_ArrVal_890) .cse169 v_ArrVal_893) .cse170 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= (select (select (store .cse171 .cse170 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse168)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse181 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse176 (select (select .cse181 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse180 (store .cse181 .cse176 v_ArrVal_889))) (let ((.cse177 (select (select .cse180 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse179 (store .cse180 .cse177 v_ArrVal_892))) (let ((.cse175 (select (select .cse179 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (select (select (store .cse179 .cse175 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse176 v_ArrVal_890) .cse177 v_ArrVal_893))) (= (bvadd (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse174 .cse175 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= .cse178 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse178 .cse177)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse189 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse188 (select (select .cse189 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse186 (store .cse189 .cse188 v_ArrVal_889)) (.cse183 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse185 (store .cse183 .cse188 v_ArrVal_890)) (.cse187 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse184 (store .cse185 .cse187 v_ArrVal_893))) (let ((.cse182 (select (select (store .cse184 (select (select (store .cse186 .cse187 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse182) (= (bvadd (_ bv4 32) (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse182) (= (bvadd (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse182) (= .cse182 (bvadd (_ bv8 32) (select (select .cse185 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse195 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse192 (select (select .cse195 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse194 (store .cse195 .cse192 v_ArrVal_889))) (let ((.cse193 (select (select .cse194 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse190 (store .cse194 .cse193 v_ArrVal_892))) (let ((.cse191 (select (select .cse190 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse190 .cse191 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse191) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse14 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse192 v_ArrVal_890) .cse193 v_ArrVal_893) .cse191 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) is different from false [2023-11-24 02:38:46,739 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse1 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse10 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse14 (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse1))) (and (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse7 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (store .cse8 .cse6 v_ArrVal_892)) (.cse0 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse3 (store (store .cse0 .cse7 v_ArrVal_890) .cse6 v_ArrVal_893)) (.cse5 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (select (select (store .cse3 .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse2) (= (bvadd (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse2) (= (select (select (store .cse4 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6)))))))))) .cse10) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse20 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse13 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse19 (store .cse20 .cse13 v_ArrVal_889))) (let ((.cse18 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse19 .cse18 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse13) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse13 v_ArrVal_890))) (let ((.cse16 (store .cse17 .cse18 v_ArrVal_893))) (let ((.cse15 (select (select (store .cse16 .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse15) (= (bvadd (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse15) (= .cse15 (bvadd (_ bv8 32) (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse30 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse28 (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse30 .cse28 v_ArrVal_889))) (let ((.cse21 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse25 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse23 (store .cse29 .cse25 v_ArrVal_892)) (.cse27 (store .cse21 .cse28 v_ArrVal_890))) (let ((.cse26 (store .cse27 .cse25 v_ArrVal_893)) (.cse24 (select (select .cse23 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (select (select (store .cse26 .cse24 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse22) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse23 .cse24 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse25))) (= (bvadd (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse22) (not (= .cse22 (bvadd (_ bv8 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))) (or (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse31 (let ((.cse33 (let ((.cse34 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse34 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse33 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse32 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse32 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse32)))) .cse10) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse41 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse36 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse36 v_ArrVal_889))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse40 .cse37 v_ArrVal_892))) (let ((.cse38 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse35 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse35 .cse36 v_ArrVal_890) .cse37 v_ArrVal_893) .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse39 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38))))))))) .cse10) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse49 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse48 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse46 (store .cse49 .cse48 v_ArrVal_889)) (.cse42 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse45 (store .cse42 .cse48 v_ArrVal_890)) (.cse47 (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 (select (select (store .cse46 .cse47 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse43) (= .cse43 (bvadd (_ bv8 32) (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse57 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse56 (store .cse57 .cse54 v_ArrVal_889))) (let ((.cse55 (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse56 .cse55 v_ArrVal_892))) (let ((.cse53 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse52 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (select (select (store (store (store .cse53 .cse54 v_ArrVal_890) .cse55 v_ArrVal_893) .cse52 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse50) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse51 .cse52 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse52)) (= (bvadd (_ bv4 32) (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse50)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse63 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse63 v_ArrVal_889))) (let ((.cse64 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse61 (store .cse65 .cse64 v_ArrVal_892)) (.cse58 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse60 (store (store .cse58 .cse63 v_ArrVal_890) .cse64 v_ArrVal_893)) (.cse62 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (select (select (store .cse60 .cse62 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse59) (not (= (bvadd (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse59)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse61 .cse62 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse74 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse69 v_ArrVal_889))) (let ((.cse68 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse68 v_ArrVal_892))) (let ((.cse71 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (select (select (store .cse72 .cse71 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse67 .cse68)) (= .cse67 .cse69) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse70 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse69 v_ArrVal_890))) (= (select (select (store (store .cse70 .cse68 v_ArrVal_893) .cse71 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd (_ bv8 32) (select (select .cse70 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse83 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse82 (store .cse83 .cse81 v_ArrVal_889))) (let ((.cse80 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (store .cse82 .cse80 v_ArrVal_892)) (.cse76 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse77 (store (store .cse76 .cse81 v_ArrVal_890) .cse80 v_ArrVal_893)) (.cse79 (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse75 (select (select (store .cse77 .cse79 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse75) (= (bvadd (_ bv4 32) (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse75) (= (bvadd (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse75) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse78 .cse79 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse80))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (let ((.cse87 (let ((.cse88 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse88 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse87 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse85 (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse84 (select (select (store .cse86 .cse85 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse84 .cse85) (= .cse84 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse98 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse94 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse94 v_ArrVal_889))) (let ((.cse93 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse96 (store .cse97 .cse93 v_ArrVal_892))) (let ((.cse92 (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (select (select (store .cse96 .cse92 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse91 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse94 v_ArrVal_890))) (let ((.cse89 (store .cse91 .cse93 v_ArrVal_893))) (let ((.cse90 (select (select (store .cse89 .cse92 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse90) (= .cse90 (bvadd (_ bv8 32) (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))) (= .cse95 .cse94) (= .cse95 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse106 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse102 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (store .cse106 .cse102 v_ArrVal_889))) (let ((.cse103 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse104 (store .cse105 .cse103 v_ArrVal_892))) (let ((.cse101 (select (select .cse104 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse102 v_ArrVal_890) .cse103 v_ArrVal_893))) (let ((.cse99 (select (select (store .cse100 .cse101 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse99) (= (bvadd (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse99))))) (= (select (select (store .cse104 .cse101 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse103))))))))) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse113 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse109 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse112 (store .cse113 .cse109 v_ArrVal_889))) (let ((.cse110 (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse111 (store .cse112 .cse110 v_ArrVal_892))) (let ((.cse108 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse107 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse109 v_ArrVal_890) .cse110 v_ArrVal_893))) (= (bvadd (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse107 .cse108 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse111 .cse108 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse110)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse121 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse118 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse121 .cse118 v_ArrVal_889))) (let ((.cse119 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse120 .cse119 v_ArrVal_892))) (let ((.cse115 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse114 (select (select (store .cse116 .cse115 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse114 .cse115) (= .cse114 |c_ULTIMATE.start_main_#t~mem11#1.base|)))) (let ((.cse117 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse117 .cse118 v_ArrVal_890) .cse119 v_ArrVal_893) .cse115 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse124 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse128 (store .cse129 .cse124 v_ArrVal_889))) (let ((.cse126 (select (select .cse128 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse127 (store .cse128 .cse126 v_ArrVal_892))) (let ((.cse123 (select (select .cse127 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse122 (select (select (store .cse127 .cse123 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse122 .cse123)) (= .cse122 .cse124) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse125 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse124 v_ArrVal_890) .cse126 v_ArrVal_893))) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse125 .cse123 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse137 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse137 v_ArrVal_889))) (let ((.cse133 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse134 (store .cse138 .cse133 v_ArrVal_892)) (.cse130 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse136 (store (store .cse130 .cse137 v_ArrVal_890) .cse133 v_ArrVal_893)) (.cse135 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse131 (select (select (store .cse136 .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse131) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse132 (select (select (store .cse134 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse132 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse132 .cse133)))) (= (bvadd (select (select .cse136 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse131)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse149 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse148 (store .cse149 .cse147 v_ArrVal_889))) (let ((.cse142 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse146 (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse140 (store .cse148 .cse146 v_ArrVal_892)) (.cse145 (store .cse142 .cse147 v_ArrVal_890))) (let ((.cse144 (store .cse145 .cse146 v_ArrVal_893)) (.cse141 (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse143 (select (select (store .cse144 .cse141 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse140 .cse141 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |c_ULTIMATE.start_main_#t~mem11#1.base|)) (= (bvadd (_ bv4 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse143) (= (bvadd (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse143) (= .cse143 (bvadd (_ bv8 32) (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse158 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse154 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse157 (store .cse158 .cse154 v_ArrVal_889))) (let ((.cse156 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse152 (store .cse157 .cse156 v_ArrVal_892)) (.cse155 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse154 v_ArrVal_890))) (let ((.cse150 (store .cse155 .cse156 v_ArrVal_893)) (.cse153 (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse151 (select (select (store .cse150 .cse153 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse151) (= (select (select (store .cse152 .cse153 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse154) (= .cse151 (bvadd (_ bv8 32) (select (select .cse155 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) .cse10) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse166 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse164 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse165 (store .cse166 .cse164 v_ArrVal_889))) (let ((.cse163 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse159 (store .cse165 .cse163 v_ArrVal_892))) (let ((.cse160 (select (select .cse159 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse159 .cse160 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse160) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse162 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse164 v_ArrVal_890))) (let ((.cse161 (select (select (store (store .cse162 .cse163 v_ArrVal_893) .cse160 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse161) (= .cse161 (bvadd (_ bv8 32) (select (select .cse162 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse173 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse168 (select (select .cse173 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse172 (store .cse173 .cse168 v_ArrVal_889))) (let ((.cse169 (select (select .cse172 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (store .cse172 .cse169 v_ArrVal_892))) (let ((.cse170 (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse167 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse167 .cse168 v_ArrVal_890) .cse169 v_ArrVal_893) .cse170 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= (select (select (store .cse171 .cse170 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse168)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse181 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse176 (select (select .cse181 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse180 (store .cse181 .cse176 v_ArrVal_889))) (let ((.cse177 (select (select .cse180 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse179 (store .cse180 .cse177 v_ArrVal_892))) (let ((.cse175 (select (select .cse179 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (select (select (store .cse179 .cse175 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse176 v_ArrVal_890) .cse177 v_ArrVal_893))) (= (bvadd (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse174 .cse175 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= .cse178 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse178 .cse177)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse189 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse188 (select (select .cse189 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse186 (store .cse189 .cse188 v_ArrVal_889)) (.cse183 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse185 (store .cse183 .cse188 v_ArrVal_890)) (.cse187 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse184 (store .cse185 .cse187 v_ArrVal_893))) (let ((.cse182 (select (select (store .cse184 (select (select (store .cse186 .cse187 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse182) (= (bvadd (_ bv4 32) (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse182) (= (bvadd (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse182) (= .cse182 (bvadd (_ bv8 32) (select (select .cse185 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse195 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse192 (select (select .cse195 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse194 (store .cse195 .cse192 v_ArrVal_889))) (let ((.cse193 (select (select .cse194 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse190 (store .cse194 .cse193 v_ArrVal_892))) (let ((.cse191 (select (select .cse190 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse190 .cse191 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse191) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse14 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse192 v_ArrVal_890) .cse193 v_ArrVal_893) .cse191 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) is different from true [2023-11-24 02:39:13,508 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse43 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse47 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse47 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse51 .cse50 v_ArrVal_892)) (.cse44 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse47 v_ArrVal_890))) (let ((.cse46 (store .cse44 .cse50 v_ArrVal_893)) (.cse49 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse45 (select (select (store .cse46 .cse49 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse45) (= (bvadd (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse45) (= .cse47 (select (select (store .cse48 .cse49 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse61 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse53 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse61 .cse53 v_ArrVal_889))) (let ((.cse59 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse54 (store .cse60 .cse59 v_ArrVal_892))) (let ((.cse55 (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse53 (select (select (store .cse54 .cse55 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse56 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse53 v_ArrVal_890))) (let ((.cse58 (store .cse56 .cse59 v_ArrVal_893))) (let ((.cse57 (select (select (store .cse58 .cse55 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse57) (= (bvadd (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse57)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse68 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse66 (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse68 .cse66 v_ArrVal_889))) (let ((.cse64 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse62 (store .cse67 .cse64 v_ArrVal_892))) (let ((.cse63 (select (select .cse62 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse62 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse64) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse65 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse66 v_ArrVal_890) .cse64 v_ArrVal_893))) (= (bvadd (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse65 .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse75 (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse76 .cse75 v_ArrVal_889)) (.cse69 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse71 (store .cse69 .cse75 v_ArrVal_890)) (.cse74 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse71 .cse74 v_ArrVal_893))) (let ((.cse70 (select (select (store .cse72 (select (select (store .cse73 .cse74 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse69 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse70) (= (bvadd (_ bv8 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse70))))))))) .cse43) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse85 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse83 (select (select .cse85 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse84 (store .cse85 .cse83 v_ArrVal_889))) (let ((.cse79 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse77 (store .cse84 .cse79 v_ArrVal_892)) (.cse80 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse82 (store (store .cse80 .cse83 v_ArrVal_890) .cse79 v_ArrVal_893)) (.cse78 (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (select (select (store .cse82 .cse78 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse77 .cse78 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79)) (= (bvadd (_ bv4 32) (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse81) (= .cse0 .cse81) (= (bvadd (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse81)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse87 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (store .cse92 .cse87 v_ArrVal_889))) (let ((.cse88 (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse90 (store .cse91 .cse88 v_ArrVal_892))) (let ((.cse89 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse86 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse86 .cse87 v_ArrVal_890) .cse88 v_ArrVal_893) .cse89 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse87 (select (select (store .cse90 .cse89 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse102 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse100 (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse101 (store .cse102 .cse100 v_ArrVal_889))) (let ((.cse93 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse99 (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse101 .cse99 v_ArrVal_892)) (.cse95 (store .cse93 .cse100 v_ArrVal_890))) (let ((.cse96 (store .cse95 .cse99 v_ArrVal_893)) (.cse98 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (select (select (store .cse96 .cse98 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse94) (= (bvadd (_ bv8 32) (select (select .cse95 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse94) (= (bvadd (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse94) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse97 .cse98 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse111 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse108 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse110 (store .cse111 .cse108 v_ArrVal_889))) (let ((.cse107 (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse110 .cse107 v_ArrVal_892))) (let ((.cse106 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse104 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse108 v_ArrVal_890))) (let ((.cse105 (store .cse104 .cse107 v_ArrVal_893))) (let ((.cse103 (select (select (store .cse105 .cse106 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse103) (= (bvadd (_ bv8 32) (select (select .cse104 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse103) (= (bvadd (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse103)))))) (= .cse108 (select (select (store .cse109 .cse106 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse113 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (store .cse118 .cse113 v_ArrVal_889))) (let ((.cse114 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse114 v_ArrVal_892))) (let ((.cse115 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse112 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse112 .cse113 v_ArrVal_890) .cse114 v_ArrVal_893) .cse115 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse116 .cse115 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse115)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse124 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse121 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse123 (store .cse124 .cse121 v_ArrVal_889))) (let ((.cse122 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse119 (store .cse123 .cse122 v_ArrVal_892))) (let ((.cse120 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse119 .cse120 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse120) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse121 v_ArrVal_890) .cse122 v_ArrVal_893) .cse120 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse131 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse127 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse127 v_ArrVal_889))) (let ((.cse128 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (store .cse130 .cse128 v_ArrVal_892))) (let ((.cse126 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse125 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse127 v_ArrVal_890) .cse128 v_ArrVal_893))) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse125 .cse126 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse129 .cse126 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse128)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse134 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse134 v_ArrVal_889))) (let ((.cse135 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse137 (store .cse138 .cse135 v_ArrVal_892))) (let ((.cse133 (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse136 (select (select (store .cse137 .cse133 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse132 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse134 v_ArrVal_890) .cse135 v_ArrVal_893))) (= (bvadd (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse132 .cse133 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse136 .cse133)) (= .cse134 .cse136)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse147 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse144 (select (select .cse147 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse146 (store .cse147 .cse144 v_ArrVal_889))) (let ((.cse141 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse145 (store .cse146 .cse141 v_ArrVal_892))) (let ((.cse143 (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse140 (select (select (store .cse145 .cse143 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse140 .cse141)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse142 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse144 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse142 .cse141 v_ArrVal_893) .cse143 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse144 .cse140)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse157 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse155 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse156 (store .cse157 .cse155 v_ArrVal_889))) (let ((.cse148 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse154 (select (select .cse156 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse152 (store .cse156 .cse154 v_ArrVal_892)) (.cse150 (store .cse148 .cse155 v_ArrVal_890))) (let ((.cse151 (store .cse150 .cse154 v_ArrVal_893)) (.cse153 (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse149 (select (select (store .cse151 .cse153 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse149) (not (= (bvadd (_ bv8 32) (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse149)) (= (bvadd (select (select .cse151 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse149) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse152 .cse153 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse154)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse165 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse162 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse164 (store .cse165 .cse162 v_ArrVal_889))) (let ((.cse163 (select (select .cse164 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse158 (store .cse164 .cse163 v_ArrVal_892))) (let ((.cse160 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse159 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse161 (select (select (store (store (store .cse160 .cse162 v_ArrVal_890) .cse163 v_ArrVal_893) .cse159 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse158 .cse159 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse159)) (= (bvadd (_ bv4 32) (select (select .cse160 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse161) (= .cse0 .cse161)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse172 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse173 (store .cse174 .cse172 v_ArrVal_889))) (let ((.cse168 (select (select .cse173 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse166 (store .cse173 .cse168 v_ArrVal_892)) (.cse169 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse171 (store (store .cse169 .cse172 v_ArrVal_890) .cse168 v_ArrVal_893)) (.cse167 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse170 (select (select (store .cse171 .cse167 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse166 .cse167 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse168)) (= (bvadd (_ bv4 32) (select (select .cse169 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse170) (= (bvadd (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse170)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse183 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse182 (store .cse183 .cse181 v_ArrVal_889))) (let ((.cse180 (select (select .cse182 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (store .cse182 .cse180 v_ArrVal_892)) (.cse175 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse177 (store (store .cse175 .cse181 v_ArrVal_890) .cse180 v_ArrVal_893)) (.cse179 (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse176 (select (select (store .cse177 .cse179 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse176) (= (bvadd (select (select .cse177 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse176) (= (select (select (store .cse178 .cse179 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse180))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (let ((.cse186 (let ((.cse187 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse186 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse185 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse184 .cse185 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse185))))))) is different from false [2023-11-24 02:39:15,532 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse43 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse47 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse47 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse51 .cse50 v_ArrVal_892)) (.cse44 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse47 v_ArrVal_890))) (let ((.cse46 (store .cse44 .cse50 v_ArrVal_893)) (.cse49 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse45 (select (select (store .cse46 .cse49 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse45) (= (bvadd (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse45) (= .cse47 (select (select (store .cse48 .cse49 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse61 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse53 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse61 .cse53 v_ArrVal_889))) (let ((.cse59 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse54 (store .cse60 .cse59 v_ArrVal_892))) (let ((.cse55 (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse53 (select (select (store .cse54 .cse55 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse56 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse53 v_ArrVal_890))) (let ((.cse58 (store .cse56 .cse59 v_ArrVal_893))) (let ((.cse57 (select (select (store .cse58 .cse55 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse57) (= (bvadd (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse57)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse68 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse66 (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse68 .cse66 v_ArrVal_889))) (let ((.cse64 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse62 (store .cse67 .cse64 v_ArrVal_892))) (let ((.cse63 (select (select .cse62 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse62 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse64) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse65 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse66 v_ArrVal_890) .cse64 v_ArrVal_893))) (= (bvadd (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse65 .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse75 (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse76 .cse75 v_ArrVal_889)) (.cse69 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse71 (store .cse69 .cse75 v_ArrVal_890)) (.cse74 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse71 .cse74 v_ArrVal_893))) (let ((.cse70 (select (select (store .cse72 (select (select (store .cse73 .cse74 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse69 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse70) (= (bvadd (_ bv8 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse70))))))))) .cse43) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse85 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse83 (select (select .cse85 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse84 (store .cse85 .cse83 v_ArrVal_889))) (let ((.cse79 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse77 (store .cse84 .cse79 v_ArrVal_892)) (.cse80 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse82 (store (store .cse80 .cse83 v_ArrVal_890) .cse79 v_ArrVal_893)) (.cse78 (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (select (select (store .cse82 .cse78 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse77 .cse78 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79)) (= (bvadd (_ bv4 32) (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse81) (= .cse0 .cse81) (= (bvadd (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse81)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse87 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (store .cse92 .cse87 v_ArrVal_889))) (let ((.cse88 (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse90 (store .cse91 .cse88 v_ArrVal_892))) (let ((.cse89 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse86 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse86 .cse87 v_ArrVal_890) .cse88 v_ArrVal_893) .cse89 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse87 (select (select (store .cse90 .cse89 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse102 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse100 (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse101 (store .cse102 .cse100 v_ArrVal_889))) (let ((.cse93 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse99 (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse101 .cse99 v_ArrVal_892)) (.cse95 (store .cse93 .cse100 v_ArrVal_890))) (let ((.cse96 (store .cse95 .cse99 v_ArrVal_893)) (.cse98 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (select (select (store .cse96 .cse98 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse94) (= (bvadd (_ bv8 32) (select (select .cse95 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse94) (= (bvadd (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse94) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse97 .cse98 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse111 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse108 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse110 (store .cse111 .cse108 v_ArrVal_889))) (let ((.cse107 (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse110 .cse107 v_ArrVal_892))) (let ((.cse106 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse104 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse108 v_ArrVal_890))) (let ((.cse105 (store .cse104 .cse107 v_ArrVal_893))) (let ((.cse103 (select (select (store .cse105 .cse106 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse103) (= (bvadd (_ bv8 32) (select (select .cse104 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse103) (= (bvadd (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse103)))))) (= .cse108 (select (select (store .cse109 .cse106 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse113 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (store .cse118 .cse113 v_ArrVal_889))) (let ((.cse114 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse114 v_ArrVal_892))) (let ((.cse115 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse112 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse112 .cse113 v_ArrVal_890) .cse114 v_ArrVal_893) .cse115 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse116 .cse115 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse115)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse124 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse121 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse123 (store .cse124 .cse121 v_ArrVal_889))) (let ((.cse122 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse119 (store .cse123 .cse122 v_ArrVal_892))) (let ((.cse120 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse119 .cse120 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse120) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse121 v_ArrVal_890) .cse122 v_ArrVal_893) .cse120 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse131 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse127 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse127 v_ArrVal_889))) (let ((.cse128 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (store .cse130 .cse128 v_ArrVal_892))) (let ((.cse126 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse125 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse127 v_ArrVal_890) .cse128 v_ArrVal_893))) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse125 .cse126 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse129 .cse126 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse128)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse134 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse134 v_ArrVal_889))) (let ((.cse135 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse137 (store .cse138 .cse135 v_ArrVal_892))) (let ((.cse133 (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse136 (select (select (store .cse137 .cse133 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse132 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse134 v_ArrVal_890) .cse135 v_ArrVal_893))) (= (bvadd (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse132 .cse133 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse136 .cse133)) (= .cse134 .cse136)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse147 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse144 (select (select .cse147 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse146 (store .cse147 .cse144 v_ArrVal_889))) (let ((.cse141 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse145 (store .cse146 .cse141 v_ArrVal_892))) (let ((.cse143 (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse140 (select (select (store .cse145 .cse143 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse140 .cse141)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse142 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse144 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse142 .cse141 v_ArrVal_893) .cse143 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse144 .cse140)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse157 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse155 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse156 (store .cse157 .cse155 v_ArrVal_889))) (let ((.cse148 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse154 (select (select .cse156 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse152 (store .cse156 .cse154 v_ArrVal_892)) (.cse150 (store .cse148 .cse155 v_ArrVal_890))) (let ((.cse151 (store .cse150 .cse154 v_ArrVal_893)) (.cse153 (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse149 (select (select (store .cse151 .cse153 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse149) (not (= (bvadd (_ bv8 32) (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse149)) (= (bvadd (select (select .cse151 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse149) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse152 .cse153 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse154)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse165 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse162 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse164 (store .cse165 .cse162 v_ArrVal_889))) (let ((.cse163 (select (select .cse164 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse158 (store .cse164 .cse163 v_ArrVal_892))) (let ((.cse160 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse159 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse161 (select (select (store (store (store .cse160 .cse162 v_ArrVal_890) .cse163 v_ArrVal_893) .cse159 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse158 .cse159 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse159)) (= (bvadd (_ bv4 32) (select (select .cse160 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse161) (= .cse0 .cse161)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse172 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse173 (store .cse174 .cse172 v_ArrVal_889))) (let ((.cse168 (select (select .cse173 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse166 (store .cse173 .cse168 v_ArrVal_892)) (.cse169 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse171 (store (store .cse169 .cse172 v_ArrVal_890) .cse168 v_ArrVal_893)) (.cse167 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse170 (select (select (store .cse171 .cse167 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse166 .cse167 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse168)) (= (bvadd (_ bv4 32) (select (select .cse169 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse170) (= (bvadd (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse170)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse183 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse182 (store .cse183 .cse181 v_ArrVal_889))) (let ((.cse180 (select (select .cse182 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (store .cse182 .cse180 v_ArrVal_892)) (.cse175 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse177 (store (store .cse175 .cse181 v_ArrVal_890) .cse180 v_ArrVal_893)) (.cse179 (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse176 (select (select (store .cse177 .cse179 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse176) (= (bvadd (select (select .cse177 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse176) (= (select (select (store .cse178 .cse179 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse180))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (let ((.cse186 (let ((.cse187 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse186 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse185 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse184 .cse185 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse185))))))) is different from true [2023-11-24 02:39:22,734 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse26 (not (= |c_ULTIMATE.start_main_#t~pre10#1| (bvadd |c_#pthreadsForks| (_ bv1 32))))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse33 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse28 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse32 (store .cse33 .cse28 v_ArrVal_889))) (let ((.cse29 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (store .cse32 .cse29 v_ArrVal_892))) (let ((.cse30 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse27 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse27 .cse28 v_ArrVal_890) .cse29 v_ArrVal_893) .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse39 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse39 v_ArrVal_889))) (let ((.cse40 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse37 (store .cse41 .cse40 v_ArrVal_892)) (.cse34 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse36 (store (store .cse34 .cse39 v_ArrVal_890) .cse40 v_ArrVal_893)) (.cse38 (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (select (select (store .cse36 .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse35) (not (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse37 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse50 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse46 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse49 (store .cse50 .cse46 v_ArrVal_889))) (let ((.cse47 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse49 .cse47 v_ArrVal_892))) (let ((.cse45 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse44 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse46 v_ArrVal_890) .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse43))))) (= (select (select (store .cse48 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse47))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse59 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse51 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse58 (store .cse59 .cse51 v_ArrVal_889))) (let ((.cse57 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse58 .cse57 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse51 (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse54 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse51 v_ArrVal_890))) (let ((.cse56 (store .cse54 .cse57 v_ArrVal_893))) (let ((.cse55 (select (select (store .cse56 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse55) (= (bvadd (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse55)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse64 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse64 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse61 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse60 .cse61 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse63 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse64 v_ArrVal_890) .cse62 v_ArrVal_893))) (= (bvadd (select (select .cse63 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse63 .cse61 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse73 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse69 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse69 v_ArrVal_889))) (let ((.cse70 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse71 (store .cse72 .cse70 v_ArrVal_892))) (let ((.cse68 (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse67 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse69 v_ArrVal_890) .cse70 v_ArrVal_893))) (= (bvadd (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse67 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse71 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse70)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse80 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse80 v_ArrVal_889))) (let ((.cse76 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse81 .cse76 v_ArrVal_892)) (.cse77 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse79 (store (store .cse77 .cse80 v_ArrVal_890) .cse76 v_ArrVal_893)) (.cse75 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (select (select (store .cse79 .cse75 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse74 .cse75 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse76)) (= (bvadd (_ bv4 32) (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse78) (= .cse0 .cse78) (= (bvadd (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse78)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse89 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse84 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse88 (store .cse89 .cse84 v_ArrVal_889))) (let ((.cse85 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse87 (store .cse88 .cse85 v_ArrVal_892))) (let ((.cse86 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse83 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse83 .cse84 v_ArrVal_890) .cse85 v_ArrVal_893) .cse86 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse84 (select (select (store .cse87 .cse86 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse97 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse97 v_ArrVal_889))) (let ((.cse90 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse96 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (store .cse98 .cse96 v_ArrVal_892)) (.cse92 (store .cse90 .cse97 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse96 v_ArrVal_893)) (.cse95 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (select (select (store .cse93 .cse95 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse91) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse94 .cse95 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse101 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse101 .cse104 v_ArrVal_893))) (let ((.cse100 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse100) (= (bvadd (_ bv8 32) (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse100) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse100)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse114 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse111 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (store .cse114 .cse111 v_ArrVal_889))) (let ((.cse112 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse113 .cse112 v_ArrVal_892))) (let ((.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse110) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse111 v_ArrVal_890) .cse112 v_ArrVal_893) .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse123 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse118 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse122 (store .cse123 .cse118 v_ArrVal_889))) (let ((.cse121 (select (select .cse122 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse119 (store .cse122 .cse121 v_ArrVal_892)) (.cse115 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse118 v_ArrVal_890))) (let ((.cse117 (store .cse115 .cse121 v_ArrVal_893)) (.cse120 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (select (select (store .cse117 .cse120 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse116) (= (bvadd (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse116) (= .cse118 (select (select (store .cse119 .cse120 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse131 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse126 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse126 v_ArrVal_889))) (let ((.cse127 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (store .cse130 .cse127 v_ArrVal_892))) (let ((.cse125 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse128 (select (select (store .cse129 .cse125 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse124 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse126 v_ArrVal_890) .cse127 v_ArrVal_893))) (= (bvadd (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse124 .cse125 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse128 .cse125)) (= .cse126 .cse128)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse136 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse136 v_ArrVal_889))) (let ((.cse133 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse137 (store .cse138 .cse133 v_ArrVal_892))) (let ((.cse135 (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse132 (select (select (store .cse137 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse132 .cse133)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse134 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse136 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse134 .cse133 v_ArrVal_893) .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse136 .cse132)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse149 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse148 (store .cse149 .cse147 v_ArrVal_889))) (let ((.cse140 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse146 (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse144 (store .cse148 .cse146 v_ArrVal_892)) (.cse142 (store .cse140 .cse147 v_ArrVal_890))) (let ((.cse143 (store .cse142 .cse146 v_ArrVal_893)) (.cse145 (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (select (select (store .cse143 .cse145 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse141) (not (= (bvadd (_ bv8 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse141)) (= (bvadd (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse141) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse144 .cse145 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse146)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse157 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse154 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse156 (store .cse157 .cse154 v_ArrVal_889))) (let ((.cse155 (select (select .cse156 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse150 (store .cse156 .cse155 v_ArrVal_892))) (let ((.cse152 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse151 (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse153 (select (select (store (store (store .cse152 .cse154 v_ArrVal_890) .cse155 v_ArrVal_893) .cse151 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse150 .cse151 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse151)) (= (bvadd (_ bv4 32) (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse153) (= .cse0 .cse153)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse166 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse164 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse165 (store .cse166 .cse164 v_ArrVal_889))) (let ((.cse160 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse158 (store .cse165 .cse160 v_ArrVal_892)) (.cse161 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse163 (store (store .cse161 .cse164 v_ArrVal_890) .cse160 v_ArrVal_893)) (.cse159 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse162 (select (select (store .cse163 .cse159 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse158 .cse159 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse160)) (= (bvadd (_ bv4 32) (select (select .cse161 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse162) (= (bvadd (select (select .cse163 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse162)))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse173 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (store .cse174 .cse173 v_ArrVal_889)) (.cse167 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse169 (store .cse167 .cse173 v_ArrVal_890)) (.cse172 (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse170 (store .cse169 .cse172 v_ArrVal_893))) (let ((.cse168 (select (select (store .cse170 (select (select (store .cse171 .cse172 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse168) (= (bvadd (_ bv8 32) (select (select .cse169 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse168) (= (bvadd (select (select .cse170 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse168))))))))) .cse26) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse183 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse182 (store .cse183 .cse181 v_ArrVal_889))) (let ((.cse180 (select (select .cse182 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (store .cse182 .cse180 v_ArrVal_892)) (.cse175 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse177 (store (store .cse175 .cse181 v_ArrVal_890) .cse180 v_ArrVal_893)) (.cse179 (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse176 (select (select (store .cse177 .cse179 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse176) (= (bvadd (select (select .cse177 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse176) (= (select (select (store .cse178 .cse179 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse180))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (let ((.cse186 (let ((.cse187 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse186 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse185 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse184 .cse185 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse185))))))) is different from false [2023-11-24 02:39:25,033 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse26 (not (= |c_ULTIMATE.start_main_#t~pre10#1| (bvadd |c_#pthreadsForks| (_ bv1 32))))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse33 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse28 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse32 (store .cse33 .cse28 v_ArrVal_889))) (let ((.cse29 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (store .cse32 .cse29 v_ArrVal_892))) (let ((.cse30 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse27 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse27 .cse28 v_ArrVal_890) .cse29 v_ArrVal_893) .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse39 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse39 v_ArrVal_889))) (let ((.cse40 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse37 (store .cse41 .cse40 v_ArrVal_892)) (.cse34 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse36 (store (store .cse34 .cse39 v_ArrVal_890) .cse40 v_ArrVal_893)) (.cse38 (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (select (select (store .cse36 .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse35) (not (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse37 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse50 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse46 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse49 (store .cse50 .cse46 v_ArrVal_889))) (let ((.cse47 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse49 .cse47 v_ArrVal_892))) (let ((.cse45 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse44 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse46 v_ArrVal_890) .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse43))))) (= (select (select (store .cse48 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse47))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse59 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse51 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse58 (store .cse59 .cse51 v_ArrVal_889))) (let ((.cse57 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse58 .cse57 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse51 (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse54 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse51 v_ArrVal_890))) (let ((.cse56 (store .cse54 .cse57 v_ArrVal_893))) (let ((.cse55 (select (select (store .cse56 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse55) (= (bvadd (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse55)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse64 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse64 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse61 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse60 .cse61 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse63 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse64 v_ArrVal_890) .cse62 v_ArrVal_893))) (= (bvadd (select (select .cse63 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse63 .cse61 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse73 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse69 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse69 v_ArrVal_889))) (let ((.cse70 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse71 (store .cse72 .cse70 v_ArrVal_892))) (let ((.cse68 (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse67 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse69 v_ArrVal_890) .cse70 v_ArrVal_893))) (= (bvadd (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse67 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse71 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse70)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse80 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse80 v_ArrVal_889))) (let ((.cse76 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse81 .cse76 v_ArrVal_892)) (.cse77 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse79 (store (store .cse77 .cse80 v_ArrVal_890) .cse76 v_ArrVal_893)) (.cse75 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (select (select (store .cse79 .cse75 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse74 .cse75 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse76)) (= (bvadd (_ bv4 32) (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse78) (= .cse0 .cse78) (= (bvadd (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse78)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse89 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse84 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse88 (store .cse89 .cse84 v_ArrVal_889))) (let ((.cse85 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse87 (store .cse88 .cse85 v_ArrVal_892))) (let ((.cse86 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse83 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse83 .cse84 v_ArrVal_890) .cse85 v_ArrVal_893) .cse86 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse84 (select (select (store .cse87 .cse86 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse97 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse97 v_ArrVal_889))) (let ((.cse90 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse96 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (store .cse98 .cse96 v_ArrVal_892)) (.cse92 (store .cse90 .cse97 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse96 v_ArrVal_893)) (.cse95 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (select (select (store .cse93 .cse95 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse91) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse94 .cse95 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse101 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse101 .cse104 v_ArrVal_893))) (let ((.cse100 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse100) (= (bvadd (_ bv8 32) (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse100) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse100)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse114 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse111 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (store .cse114 .cse111 v_ArrVal_889))) (let ((.cse112 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse113 .cse112 v_ArrVal_892))) (let ((.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse110) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse111 v_ArrVal_890) .cse112 v_ArrVal_893) .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse123 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse118 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse122 (store .cse123 .cse118 v_ArrVal_889))) (let ((.cse121 (select (select .cse122 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse119 (store .cse122 .cse121 v_ArrVal_892)) (.cse115 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse118 v_ArrVal_890))) (let ((.cse117 (store .cse115 .cse121 v_ArrVal_893)) (.cse120 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (select (select (store .cse117 .cse120 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse116) (= (bvadd (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse116) (= .cse118 (select (select (store .cse119 .cse120 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse131 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse126 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse126 v_ArrVal_889))) (let ((.cse127 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (store .cse130 .cse127 v_ArrVal_892))) (let ((.cse125 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse128 (select (select (store .cse129 .cse125 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse124 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse126 v_ArrVal_890) .cse127 v_ArrVal_893))) (= (bvadd (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse124 .cse125 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse128 .cse125)) (= .cse126 .cse128)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse139 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse136 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse136 v_ArrVal_889))) (let ((.cse133 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse137 (store .cse138 .cse133 v_ArrVal_892))) (let ((.cse135 (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse132 (select (select (store .cse137 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse132 .cse133)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse134 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse136 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse134 .cse133 v_ArrVal_893) .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse136 .cse132)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse149 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse148 (store .cse149 .cse147 v_ArrVal_889))) (let ((.cse140 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse146 (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse144 (store .cse148 .cse146 v_ArrVal_892)) (.cse142 (store .cse140 .cse147 v_ArrVal_890))) (let ((.cse143 (store .cse142 .cse146 v_ArrVal_893)) (.cse145 (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (select (select (store .cse143 .cse145 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse141) (not (= (bvadd (_ bv8 32) (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse141)) (= (bvadd (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse141) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse144 .cse145 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse146)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse157 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse154 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse156 (store .cse157 .cse154 v_ArrVal_889))) (let ((.cse155 (select (select .cse156 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse150 (store .cse156 .cse155 v_ArrVal_892))) (let ((.cse152 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse151 (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse153 (select (select (store (store (store .cse152 .cse154 v_ArrVal_890) .cse155 v_ArrVal_893) .cse151 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse150 .cse151 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse151)) (= (bvadd (_ bv4 32) (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse153) (= .cse0 .cse153)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse166 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse164 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse165 (store .cse166 .cse164 v_ArrVal_889))) (let ((.cse160 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse158 (store .cse165 .cse160 v_ArrVal_892)) (.cse161 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse163 (store (store .cse161 .cse164 v_ArrVal_890) .cse160 v_ArrVal_893)) (.cse159 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse162 (select (select (store .cse163 .cse159 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse158 .cse159 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse160)) (= (bvadd (_ bv4 32) (select (select .cse161 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse162) (= (bvadd (select (select .cse163 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse162)))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse173 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (store .cse174 .cse173 v_ArrVal_889)) (.cse167 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse169 (store .cse167 .cse173 v_ArrVal_890)) (.cse172 (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse170 (store .cse169 .cse172 v_ArrVal_893))) (let ((.cse168 (select (select (store .cse170 (select (select (store .cse171 .cse172 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse168) (= (bvadd (_ bv8 32) (select (select .cse169 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse168) (= (bvadd (select (select .cse170 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse168))))))))) .cse26) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse183 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse182 (store .cse183 .cse181 v_ArrVal_889))) (let ((.cse180 (select (select .cse182 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse178 (store .cse182 .cse180 v_ArrVal_892)) (.cse175 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse177 (store (store .cse175 .cse181 v_ArrVal_890) .cse180 v_ArrVal_893)) (.cse179 (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse176 (select (select (store .cse177 .cse179 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse176) (= (bvadd (select (select .cse177 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse176) (= (select (select (store .cse178 .cse179 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse180))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (let ((.cse186 (let ((.cse187 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse186 (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse185 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse184 .cse185 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse185))))))) is different from true [2023-11-24 02:39:31,152 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse51 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse43 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (store .cse51 .cse43 v_ArrVal_889))) (let ((.cse49 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse50 .cse49 v_ArrVal_892))) (let ((.cse45 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse43 (select (select (store .cse44 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse46 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse43 v_ArrVal_890))) (let ((.cse48 (store .cse46 .cse49 v_ArrVal_893))) (let ((.cse47 (select (select (store .cse48 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse47) (= (bvadd (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse47)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse58 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse56 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse57 (store .cse58 .cse56 v_ArrVal_889))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse57 .cse54 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse55 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse56 v_ArrVal_890) .cse54 v_ArrVal_893))) (= (bvadd (select (select .cse55 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse55 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse67 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse65 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse66 (store .cse67 .cse65 v_ArrVal_889))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse66 .cse61 v_ArrVal_892)) (.cse62 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse64 (store (store .cse62 .cse65 v_ArrVal_890) .cse61 v_ArrVal_893)) (.cse60 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse63 (select (select (store .cse64 .cse60 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse59 .cse60 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse61)) (= (bvadd (_ bv4 32) (select (select .cse62 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse63) (= .cse0 .cse63) (= (bvadd (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse63)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse74 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse69 v_ArrVal_889))) (let ((.cse70 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse70 v_ArrVal_892))) (let ((.cse71 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse68 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse68 .cse69 v_ArrVal_890) .cse70 v_ArrVal_893) .cse71 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse69 (select (select (store .cse72 .cse71 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse84 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse82 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse84 .cse82 v_ArrVal_889))) (let ((.cse75 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse79 (store .cse83 .cse81 v_ArrVal_892)) (.cse77 (store .cse75 .cse82 v_ArrVal_890))) (let ((.cse78 (store .cse77 .cse81 v_ArrVal_893)) (.cse80 (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse76 (select (select (store .cse78 .cse80 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse76) (= (bvadd (_ bv8 32) (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse76) (= (bvadd (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse76) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse79 .cse80 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse93 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse90 (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse92 (store .cse93 .cse90 v_ArrVal_889))) (let ((.cse89 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (store .cse92 .cse89 v_ArrVal_892))) (let ((.cse88 (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse90 v_ArrVal_890))) (let ((.cse87 (store .cse86 .cse89 v_ArrVal_893))) (let ((.cse85 (select (select (store .cse87 .cse88 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse85) (= (bvadd (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse85)))))) (= .cse90 (select (select (store .cse91 .cse88 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse97 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (store .cse98 .cse97 v_ArrVal_892))) (let ((.cse95 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse94 .cse95 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse95) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse96 v_ArrVal_890) .cse97 v_ArrVal_893) .cse95 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse107 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse102 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse102 v_ArrVal_889))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (store .cse106 .cse103 v_ArrVal_892))) (let ((.cse101 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse104 (select (select (store .cse105 .cse101 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse100 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse102 v_ArrVal_890) .cse103 v_ArrVal_893))) (= (bvadd (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse100 .cse101 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse104 .cse101)) (= .cse102 .cse104)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse115 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse112 (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse114 (store .cse115 .cse112 v_ArrVal_889))) (let ((.cse109 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (store .cse114 .cse109 v_ArrVal_892))) (let ((.cse111 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse108 (select (select (store .cse113 .cse111 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse108 .cse109)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse110 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse112 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse110 .cse109 v_ArrVal_893) .cse111 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse112 .cse108)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse125 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse123 (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse124 (store .cse125 .cse123 v_ArrVal_889))) (let ((.cse116 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse122 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse124 .cse122 v_ArrVal_892)) (.cse118 (store .cse116 .cse123 v_ArrVal_890))) (let ((.cse119 (store .cse118 .cse122 v_ArrVal_893)) (.cse121 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (select (select (store .cse119 .cse121 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse117) (not (= (bvadd (_ bv8 32) (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse117)) (= (bvadd (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse117) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse120 .cse121 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse122)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse133 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse130 (select (select .cse133 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse132 (store .cse133 .cse130 v_ArrVal_889))) (let ((.cse131 (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse132 .cse131 v_ArrVal_892))) (let ((.cse128 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (select (select (store (store (store .cse128 .cse130 v_ArrVal_890) .cse131 v_ArrVal_893) .cse127 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse126 .cse127 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse127)) (= (bvadd (_ bv4 32) (select (select .cse128 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse129) (= .cse0 .cse129)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse142 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse140 (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (store .cse142 .cse140 v_ArrVal_889))) (let ((.cse136 (select (select .cse141 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse134 (store .cse141 .cse136 v_ArrVal_892)) (.cse137 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse139 (store (store .cse137 .cse140 v_ArrVal_890) .cse136 v_ArrVal_893)) (.cse135 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (select (select (store .cse139 .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse134 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse136)) (= (bvadd (_ bv4 32) (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse138) (= (bvadd (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse138)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse143 (let ((.cse145 (let ((.cse146 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse146 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse145 (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse144 (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse143 .cse144 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse144))))))) is different from false [2023-11-24 02:39:33,335 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3)) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse51 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse43 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (store .cse51 .cse43 v_ArrVal_889))) (let ((.cse49 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse50 .cse49 v_ArrVal_892))) (let ((.cse45 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse43 (select (select (store .cse44 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse46 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse43 v_ArrVal_890))) (let ((.cse48 (store .cse46 .cse49 v_ArrVal_893))) (let ((.cse47 (select (select (store .cse48 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse47) (= (bvadd (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse47)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse58 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse56 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse57 (store .cse58 .cse56 v_ArrVal_889))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse57 .cse54 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse55 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse56 v_ArrVal_890) .cse54 v_ArrVal_893))) (= (bvadd (select (select .cse55 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse55 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse67 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse65 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse66 (store .cse67 .cse65 v_ArrVal_889))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse66 .cse61 v_ArrVal_892)) (.cse62 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse64 (store (store .cse62 .cse65 v_ArrVal_890) .cse61 v_ArrVal_893)) (.cse60 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse63 (select (select (store .cse64 .cse60 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse59 .cse60 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse61)) (= (bvadd (_ bv4 32) (select (select .cse62 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse63) (= .cse0 .cse63) (= (bvadd (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse63)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse74 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse69 v_ArrVal_889))) (let ((.cse70 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse70 v_ArrVal_892))) (let ((.cse71 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse68 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse68 .cse69 v_ArrVal_890) .cse70 v_ArrVal_893) .cse71 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse69 (select (select (store .cse72 .cse71 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse84 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse82 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse84 .cse82 v_ArrVal_889))) (let ((.cse75 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse79 (store .cse83 .cse81 v_ArrVal_892)) (.cse77 (store .cse75 .cse82 v_ArrVal_890))) (let ((.cse78 (store .cse77 .cse81 v_ArrVal_893)) (.cse80 (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse76 (select (select (store .cse78 .cse80 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse76) (= (bvadd (_ bv8 32) (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse76) (= (bvadd (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse76) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse79 .cse80 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse93 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse90 (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse92 (store .cse93 .cse90 v_ArrVal_889))) (let ((.cse89 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (store .cse92 .cse89 v_ArrVal_892))) (let ((.cse88 (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse90 v_ArrVal_890))) (let ((.cse87 (store .cse86 .cse89 v_ArrVal_893))) (let ((.cse85 (select (select (store .cse87 .cse88 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse85) (= (bvadd (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse85)))))) (= .cse90 (select (select (store .cse91 .cse88 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse97 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse94 (store .cse98 .cse97 v_ArrVal_892))) (let ((.cse95 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse94 .cse95 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse95) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse96 v_ArrVal_890) .cse97 v_ArrVal_893) .cse95 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse107 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse102 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse102 v_ArrVal_889))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (store .cse106 .cse103 v_ArrVal_892))) (let ((.cse101 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse104 (select (select (store .cse105 .cse101 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse100 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse102 v_ArrVal_890) .cse103 v_ArrVal_893))) (= (bvadd (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse100 .cse101 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse104 .cse101)) (= .cse102 .cse104)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse115 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse112 (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse114 (store .cse115 .cse112 v_ArrVal_889))) (let ((.cse109 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (store .cse114 .cse109 v_ArrVal_892))) (let ((.cse111 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse108 (select (select (store .cse113 .cse111 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse108 .cse109)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse110 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse112 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse110 .cse109 v_ArrVal_893) .cse111 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse112 .cse108)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse125 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse123 (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse124 (store .cse125 .cse123 v_ArrVal_889))) (let ((.cse116 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse122 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse124 .cse122 v_ArrVal_892)) (.cse118 (store .cse116 .cse123 v_ArrVal_890))) (let ((.cse119 (store .cse118 .cse122 v_ArrVal_893)) (.cse121 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (select (select (store .cse119 .cse121 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse117) (not (= (bvadd (_ bv8 32) (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse117)) (= (bvadd (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse117) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse120 .cse121 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse122)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse133 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse130 (select (select .cse133 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse132 (store .cse133 .cse130 v_ArrVal_889))) (let ((.cse131 (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse132 .cse131 v_ArrVal_892))) (let ((.cse128 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (select (select (store (store (store .cse128 .cse130 v_ArrVal_890) .cse131 v_ArrVal_893) .cse127 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse126 .cse127 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse127)) (= (bvadd (_ bv4 32) (select (select .cse128 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse129) (= .cse0 .cse129)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse142 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse140 (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (store .cse142 .cse140 v_ArrVal_889))) (let ((.cse136 (select (select .cse141 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse134 (store .cse141 .cse136 v_ArrVal_892)) (.cse137 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse139 (store (store .cse137 .cse140 v_ArrVal_890) .cse136 v_ArrVal_893)) (.cse135 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (select (select (store .cse139 .cse135 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse134 .cse135 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse136)) (= (bvadd (_ bv4 32) (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse138) (= (bvadd (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse138)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse143 (let ((.cse145 (let ((.cse146 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse146 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse145 (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse144 (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse143 .cse144 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse144))))))) is different from true [2023-11-24 02:39:43,998 WARN L854 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse6 v_ArrVal_892))) (let ((.cse3 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse5 v_ArrVal_890) .cse6 v_ArrVal_893))) (let ((.cse1 (select (select (store .cse2 .cse3 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse1))))) (= (select (select (store .cse7 .cse3 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_889))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse18 .cse16 v_ArrVal_892)) (.cse12 (store .cse10 .cse17 v_ArrVal_890))) (let ((.cse15 (store .cse12 .cse16 v_ArrVal_893)) (.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (select (select (store .cse15 .cse14 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (= (bvadd (_ bv8 32) (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse13 .cse14 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse11)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse26 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse23 (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse25 (store .cse26 .cse23 v_ArrVal_889))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse20 (store .cse25 .cse24 v_ArrVal_892))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse20 .cse21 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse21)) (let ((.cse22 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse22 .cse23 v_ArrVal_890) .cse24 v_ArrVal_893) .cse21 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse34 (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (store .cse36 .cse34 v_ArrVal_889))) (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse29 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (store .cse35 .cse29 v_ArrVal_892)) (.cse33 (store .cse30 .cse34 v_ArrVal_890))) (let ((.cse32 (store .cse33 .cse29 v_ArrVal_893)) (.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (select (select (store .cse32 .cse28 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse27 .cse28 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse29))) (= (bvadd (_ bv4 32) (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31) (= (bvadd (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse31) (not (= (bvadd (_ bv8 32) (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse45 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse42 (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse42 v_ArrVal_889))) (let ((.cse43 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse44 .cse43 v_ArrVal_892)) (.cse41 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse37 (store (store .cse41 .cse42 v_ArrVal_890) .cse43 v_ArrVal_893)) (.cse40 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse38 (select (select (store .cse37 .cse40 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse38)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse39 .cse40 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse40))) (= (bvadd (_ bv4 32) (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse38)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse46 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse46 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse47 (store .cse51 .cse50 v_ArrVal_892))) (let ((.cse48 (select (select .cse47 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse46 (select (select (store .cse47 .cse48 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse49 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse49 .cse46 v_ArrVal_890) .cse50 v_ArrVal_893) .cse48 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse60 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse57 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse60 .cse57 v_ArrVal_889))) (let ((.cse58 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse53 (store .cse59 .cse58 v_ArrVal_892))) (let ((.cse56 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse54 (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse55 (select (select (store (store (store .cse56 .cse57 v_ArrVal_890) .cse58 v_ArrVal_893) .cse54 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse53 .cse54 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54)) (= .cse0 .cse55) (= (bvadd (_ bv4 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse55)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse61 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse63 (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse61 v_ArrVal_890) .cse62 v_ArrVal_893) .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse64 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse63))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse73 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse73 v_ArrVal_889))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse74 .cse69 v_ArrVal_892)) (.cse71 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse72 (store (store .cse71 .cse73 v_ArrVal_890) .cse69 v_ArrVal_893)) (.cse68 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse70 (select (select (store .cse72 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse67 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse69)) (= .cse0 .cse70) (= (bvadd (_ bv4 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse70)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse78 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse78 v_ArrVal_889))) (let ((.cse79 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse80 (store .cse81 .cse79 v_ArrVal_892))) (let ((.cse77 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse78 v_ArrVal_890) .cse79 v_ArrVal_893))) (= (bvadd (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) (select (select (store .cse76 .cse77 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= (select (select (store .cse80 .cse77 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse88 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse89 (store .cse90 .cse88 v_ArrVal_889))) (let ((.cse87 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse89 .cse87 v_ArrVal_892))) (let ((.cse84 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse83 .cse84 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse84) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse88 v_ArrVal_890))) (let ((.cse85 (select (select (store (store .cse86 .cse87 v_ArrVal_893) .cse84 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse85))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse95 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse95 v_ArrVal_892))) (let ((.cse94 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse96 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse95 v_ArrVal_893))) (let ((.cse91 (select (select (store .cse93 .cse94 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse91)))))) (= .cse96 (select (select (store .cse97 .cse94 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse100 .cse104 v_ArrVal_893))) (let ((.cse101 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse101) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse101)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse117 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse115 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse115 v_ArrVal_889))) (let ((.cse111 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse116 .cse111 v_ArrVal_892)) (.cse112 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse114 (store (store .cse112 .cse115 v_ArrVal_890) .cse111 v_ArrVal_893)) (.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (select (select (store .cse114 .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111)) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse113) (= (bvadd (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse113)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (let ((.cse120 (let ((.cse121 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (store .cse121 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse120 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse119 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse118 .cse119 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse119)))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse128 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse129 .cse128 v_ArrVal_889)) (.cse123 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse124 (store .cse123 .cse128 v_ArrVal_890)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse125 (store .cse124 .cse127 v_ArrVal_893))) (let ((.cse122 (select (select (store .cse125 (select (select (store .cse126 .cse127 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse122) (= (bvadd (_ bv4 32) (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (_ bv8 32) (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse122))))))))))) is different from false [2023-11-24 02:39:46,058 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse6 v_ArrVal_892))) (let ((.cse3 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse5 v_ArrVal_890) .cse6 v_ArrVal_893))) (let ((.cse1 (select (select (store .cse2 .cse3 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse1))))) (= (select (select (store .cse7 .cse3 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_889))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse18 .cse16 v_ArrVal_892)) (.cse12 (store .cse10 .cse17 v_ArrVal_890))) (let ((.cse15 (store .cse12 .cse16 v_ArrVal_893)) (.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (select (select (store .cse15 .cse14 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (= (bvadd (_ bv8 32) (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse13 .cse14 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse11)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse26 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse23 (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse25 (store .cse26 .cse23 v_ArrVal_889))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse20 (store .cse25 .cse24 v_ArrVal_892))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse20 .cse21 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse21)) (let ((.cse22 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse22 .cse23 v_ArrVal_890) .cse24 v_ArrVal_893) .cse21 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse34 (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (store .cse36 .cse34 v_ArrVal_889))) (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse29 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (store .cse35 .cse29 v_ArrVal_892)) (.cse33 (store .cse30 .cse34 v_ArrVal_890))) (let ((.cse32 (store .cse33 .cse29 v_ArrVal_893)) (.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (select (select (store .cse32 .cse28 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse27 .cse28 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse29))) (= (bvadd (_ bv4 32) (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31) (= (bvadd (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse31) (not (= (bvadd (_ bv8 32) (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse45 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse42 (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse42 v_ArrVal_889))) (let ((.cse43 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse44 .cse43 v_ArrVal_892)) (.cse41 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse37 (store (store .cse41 .cse42 v_ArrVal_890) .cse43 v_ArrVal_893)) (.cse40 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse38 (select (select (store .cse37 .cse40 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse38)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse39 .cse40 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse40))) (= (bvadd (_ bv4 32) (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse38)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse46 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse46 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse47 (store .cse51 .cse50 v_ArrVal_892))) (let ((.cse48 (select (select .cse47 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse46 (select (select (store .cse47 .cse48 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse49 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse49 .cse46 v_ArrVal_890) .cse50 v_ArrVal_893) .cse48 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse60 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse57 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse60 .cse57 v_ArrVal_889))) (let ((.cse58 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse53 (store .cse59 .cse58 v_ArrVal_892))) (let ((.cse56 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse54 (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse55 (select (select (store (store (store .cse56 .cse57 v_ArrVal_890) .cse58 v_ArrVal_893) .cse54 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse53 .cse54 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54)) (= .cse0 .cse55) (= (bvadd (_ bv4 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse55)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse61 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse63 (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse61 v_ArrVal_890) .cse62 v_ArrVal_893) .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse64 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse63))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse73 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse73 v_ArrVal_889))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse74 .cse69 v_ArrVal_892)) (.cse71 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse72 (store (store .cse71 .cse73 v_ArrVal_890) .cse69 v_ArrVal_893)) (.cse68 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse70 (select (select (store .cse72 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse67 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse69)) (= .cse0 .cse70) (= (bvadd (_ bv4 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse70)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse78 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse78 v_ArrVal_889))) (let ((.cse79 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse80 (store .cse81 .cse79 v_ArrVal_892))) (let ((.cse77 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse78 v_ArrVal_890) .cse79 v_ArrVal_893))) (= (bvadd (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) (select (select (store .cse76 .cse77 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= (select (select (store .cse80 .cse77 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse88 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse89 (store .cse90 .cse88 v_ArrVal_889))) (let ((.cse87 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse89 .cse87 v_ArrVal_892))) (let ((.cse84 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse83 .cse84 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse84) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse88 v_ArrVal_890))) (let ((.cse85 (select (select (store (store .cse86 .cse87 v_ArrVal_893) .cse84 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse85))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse95 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse95 v_ArrVal_892))) (let ((.cse94 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse96 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse95 v_ArrVal_893))) (let ((.cse91 (select (select (store .cse93 .cse94 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse91)))))) (= .cse96 (select (select (store .cse97 .cse94 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse100 .cse104 v_ArrVal_893))) (let ((.cse101 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse101) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse101)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse117 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse115 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse115 v_ArrVal_889))) (let ((.cse111 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse116 .cse111 v_ArrVal_892)) (.cse112 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse114 (store (store .cse112 .cse115 v_ArrVal_890) .cse111 v_ArrVal_893)) (.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (select (select (store .cse114 .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111)) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse113) (= (bvadd (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse113)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (let ((.cse120 (let ((.cse121 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (store .cse121 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse120 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse119 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse118 .cse119 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse119)))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse128 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse129 .cse128 v_ArrVal_889)) (.cse123 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse124 (store .cse123 .cse128 v_ArrVal_890)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse125 (store .cse124 .cse127 v_ArrVal_893))) (let ((.cse122 (select (select (store .cse125 (select (select (store .cse126 .cse127 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse122) (= (bvadd (_ bv4 32) (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (_ bv8 32) (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse122))))))))))) is different from true [2023-11-24 02:39:57,834 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 10801652 treesize of output 8662132 [2023-11-24 02:40:02,303 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 4341578 treesize of output 4111842 [2023-11-24 02:40:02,879 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 389 treesize of output 371 [2023-11-24 02:40:02,957 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 371 treesize of output 357 [2023-11-24 02:40:03,033 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 455 treesize of output 425 [2023-11-24 02:40:03,108 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 425 treesize of output 393 [2023-11-24 02:40:03,182 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 393 treesize of output 351 [2023-11-24 02:40:03,264 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 191 treesize of output 177 [2023-11-24 02:40:03,350 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 147 treesize of output 143 [2023-11-24 02:40:03,434 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 69 treesize of output 65 [2023-11-24 02:40:06,210 INFO L134 CoverageAnalysis]: Checked inductivity of 124 backedges. 14 proven. 0 refuted. 0 times theorem prover too weak. 4 trivial. 106 not checked. [2023-11-24 02:40:06,210 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:40:06,211 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [24107344] [2023-11-24 02:40:06,211 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [24107344] provided 0 perfect and 2 imperfect interpolant sequences [2023-11-24 02:40:06,211 INFO L185 FreeRefinementEngine]: Found 0 perfect and 2 imperfect interpolant sequences. [2023-11-24 02:40:06,211 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [27, 27] total 51 [2023-11-24 02:40:06,211 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [2123060527] [2023-11-24 02:40:06,211 INFO L85 oduleStraightlineAll]: Using 2 imperfect interpolants to construct interpolant automaton [2023-11-24 02:40:06,211 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 51 states [2023-11-24 02:40:06,212 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:40:06,212 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 51 interpolants. [2023-11-24 02:40:06,213 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=151, Invalid=893, Unknown=24, NotChecked=1482, Total=2550 [2023-11-24 02:40:06,213 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:40:06,213 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:40:06,214 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 51 states, 51 states have (on average 5.882352941176471) internal successors, (300), 51 states have internal predecessors, (300), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 27 states. [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 35 states. [2023-11-24 02:40:06,214 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:40:12,578 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse6 v_ArrVal_892))) (let ((.cse3 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse5 v_ArrVal_890) .cse6 v_ArrVal_893))) (let ((.cse1 (select (select (store .cse2 .cse3 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse1))))) (= (select (select (store .cse7 .cse3 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_889))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse18 .cse16 v_ArrVal_892)) (.cse12 (store .cse10 .cse17 v_ArrVal_890))) (let ((.cse15 (store .cse12 .cse16 v_ArrVal_893)) (.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (select (select (store .cse15 .cse14 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (= (bvadd (_ bv8 32) (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse13 .cse14 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse11)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse26 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse23 (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse25 (store .cse26 .cse23 v_ArrVal_889))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse20 (store .cse25 .cse24 v_ArrVal_892))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse20 .cse21 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse21)) (let ((.cse22 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse22 .cse23 v_ArrVal_890) .cse24 v_ArrVal_893) .cse21 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse34 (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (store .cse36 .cse34 v_ArrVal_889))) (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse29 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (store .cse35 .cse29 v_ArrVal_892)) (.cse33 (store .cse30 .cse34 v_ArrVal_890))) (let ((.cse32 (store .cse33 .cse29 v_ArrVal_893)) (.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (select (select (store .cse32 .cse28 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse27 .cse28 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse29))) (= (bvadd (_ bv4 32) (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31) (= (bvadd (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse31) (not (= (bvadd (_ bv8 32) (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse45 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse42 (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse42 v_ArrVal_889))) (let ((.cse43 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse44 .cse43 v_ArrVal_892)) (.cse41 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse37 (store (store .cse41 .cse42 v_ArrVal_890) .cse43 v_ArrVal_893)) (.cse40 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse38 (select (select (store .cse37 .cse40 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse38)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse39 .cse40 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse40))) (= (bvadd (_ bv4 32) (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse38)))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| |c_ULTIMATE.start_main_#t~malloc8#1.base|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse46 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse46 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse47 (store .cse51 .cse50 v_ArrVal_892))) (let ((.cse48 (select (select .cse47 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse46 (select (select (store .cse47 .cse48 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse49 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse49 .cse46 v_ArrVal_890) .cse50 v_ArrVal_893) .cse48 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (= .cse0 (_ bv0 32)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse60 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse57 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse60 .cse57 v_ArrVal_889))) (let ((.cse58 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse53 (store .cse59 .cse58 v_ArrVal_892))) (let ((.cse56 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse54 (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse55 (select (select (store (store (store .cse56 .cse57 v_ArrVal_890) .cse58 v_ArrVal_893) .cse54 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse53 .cse54 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54)) (= .cse0 .cse55) (= (bvadd (_ bv4 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse55)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse61 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse63 (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse61 v_ArrVal_890) .cse62 v_ArrVal_893) .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse64 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse63))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse73 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse73 v_ArrVal_889))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse74 .cse69 v_ArrVal_892)) (.cse71 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse72 (store (store .cse71 .cse73 v_ArrVal_890) .cse69 v_ArrVal_893)) (.cse68 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse70 (select (select (store .cse72 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse67 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse69)) (= .cse0 .cse70) (= (bvadd (_ bv4 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse70)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse78 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse78 v_ArrVal_889))) (let ((.cse79 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse80 (store .cse81 .cse79 v_ArrVal_892))) (let ((.cse77 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse78 v_ArrVal_890) .cse79 v_ArrVal_893))) (= (bvadd (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) (select (select (store .cse76 .cse77 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= (select (select (store .cse80 .cse77 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse88 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse89 (store .cse90 .cse88 v_ArrVal_889))) (let ((.cse87 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse89 .cse87 v_ArrVal_892))) (let ((.cse84 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse83 .cse84 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse84) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse88 v_ArrVal_890))) (let ((.cse85 (select (select (store (store .cse86 .cse87 v_ArrVal_893) .cse84 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse85))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse95 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse95 v_ArrVal_892))) (let ((.cse94 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse96 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse95 v_ArrVal_893))) (let ((.cse91 (select (select (store .cse93 .cse94 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse91)))))) (= .cse96 (select (select (store .cse97 .cse94 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (= |c_ULTIMATE.start_main_#t~malloc8#1.offset| (_ bv0 32)) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse100 .cse104 v_ArrVal_893))) (let ((.cse101 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse101) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse101)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse117 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse115 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse115 v_ArrVal_889))) (let ((.cse111 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse116 .cse111 v_ArrVal_892)) (.cse112 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse114 (store (store .cse112 .cse115 v_ArrVal_890) .cse111 v_ArrVal_893)) (.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (select (select (store .cse114 .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111)) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse113) (= (bvadd (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse113)))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse4)) (= (bvadd (select |c_#valid| |c_ULTIMATE.start_main_~#tids~0#1.base|) (_ bv1 1)) (_ bv0 1)) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (let ((.cse120 (let ((.cse121 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (store .cse121 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse120 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse119 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse118 .cse119 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse119)))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse128 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse129 .cse128 v_ArrVal_889)) (.cse123 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse124 (store .cse123 .cse128 v_ArrVal_890)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse125 (store .cse124 .cse127 v_ArrVal_893))) (let ((.cse122 (select (select (store .cse125 (select (select (store .cse126 .cse127 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse122) (= (bvadd (_ bv4 32) (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (_ bv8 32) (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse122))))))))))) is different from true [2023-11-24 02:40:14,649 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse0 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse4 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse5 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse5 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse7 (store .cse8 .cse6 v_ArrVal_892))) (let ((.cse3 (select (select .cse7 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse5 v_ArrVal_890) .cse6 v_ArrVal_893))) (let ((.cse1 (select (select (store .cse2 .cse3 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse1))))) (= (select (select (store .cse7 .cse3 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse19 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse17 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse18 (store .cse19 .cse17 v_ArrVal_889))) (let ((.cse10 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse16 (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse13 (store .cse18 .cse16 v_ArrVal_892)) (.cse12 (store .cse10 .cse17 v_ArrVal_890))) (let ((.cse15 (store .cse12 .cse16 v_ArrVal_893)) (.cse14 (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (select (select (store .cse15 .cse14 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (= (bvadd (_ bv8 32) (select (select .cse12 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse11) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse13 .cse14 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse4)) (= (bvadd (select (select .cse15 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse11)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse26 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse23 (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse25 (store .cse26 .cse23 v_ArrVal_889))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse20 (store .cse25 .cse24 v_ArrVal_892))) (let ((.cse21 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse20 .cse21 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse21)) (let ((.cse22 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse22 .cse23 v_ArrVal_890) .cse24 v_ArrVal_893) .cse21 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse34 (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (store .cse36 .cse34 v_ArrVal_889))) (let ((.cse30 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse29 (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (store .cse35 .cse29 v_ArrVal_892)) (.cse33 (store .cse30 .cse34 v_ArrVal_890))) (let ((.cse32 (store .cse33 .cse29 v_ArrVal_893)) (.cse28 (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (select (select (store .cse32 .cse28 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse27 .cse28 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse29))) (= (bvadd (_ bv4 32) (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31) (= (bvadd (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse31) (not (= (bvadd (_ bv8 32) (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse31))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse45 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse42 (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse42 v_ArrVal_889))) (let ((.cse43 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse44 .cse43 v_ArrVal_892)) (.cse41 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse37 (store (store .cse41 .cse42 v_ArrVal_890) .cse43 v_ArrVal_893)) (.cse40 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse38 (select (select (store .cse37 .cse40 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= (bvadd (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse38)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse39 .cse40 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse40))) (= (bvadd (_ bv4 32) (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse38)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse46 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse46 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse47 (store .cse51 .cse50 v_ArrVal_892))) (let ((.cse48 (select (select .cse47 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse46 (select (select (store .cse47 .cse48 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (not (let ((.cse49 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (select (select (store (store (store .cse49 .cse46 v_ArrVal_890) .cse50 v_ArrVal_893) .cse48 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (= .cse0 (_ bv0 32)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse60 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse57 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (store .cse60 .cse57 v_ArrVal_889))) (let ((.cse58 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse53 (store .cse59 .cse58 v_ArrVal_892))) (let ((.cse56 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886)) (.cse54 (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse55 (select (select (store (store (store .cse56 .cse57 v_ArrVal_890) .cse58 v_ArrVal_893) .cse54 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse53 .cse54 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54)) (= .cse0 .cse55) (= (bvadd (_ bv4 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse55)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse61 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse61 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse63 (select (select .cse64 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse61 v_ArrVal_890) .cse62 v_ArrVal_893) .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse64 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse63))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse73 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse73 v_ArrVal_889))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse74 .cse69 v_ArrVal_892)) (.cse71 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse72 (store (store .cse71 .cse73 v_ArrVal_890) .cse69 v_ArrVal_893)) (.cse68 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse70 (select (select (store .cse72 .cse68 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse67 .cse68 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse69)) (= .cse0 .cse70) (= (bvadd (_ bv4 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse70) (= (bvadd (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse70)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse82 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse78 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse81 (store .cse82 .cse78 v_ArrVal_889))) (let ((.cse79 (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse80 (store .cse81 .cse79 v_ArrVal_892))) (let ((.cse77 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse76 (store (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse78 v_ArrVal_890) .cse79 v_ArrVal_893))) (= (bvadd (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) (select (select (store .cse76 .cse77 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= (select (select (store .cse80 .cse77 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse79))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse88 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse89 (store .cse90 .cse88 v_ArrVal_889))) (let ((.cse87 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse89 .cse87 v_ArrVal_892))) (let ((.cse84 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse83 .cse84 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse84) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse88 v_ArrVal_890))) (let ((.cse85 (select (select (store (store .cse86 .cse87 v_ArrVal_893) .cse84 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse85) (= (bvadd (_ bv8 32) (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse85))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse96 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse96 v_ArrVal_889))) (let ((.cse95 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse95 v_ArrVal_892))) (let ((.cse94 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse96 v_ArrVal_890))) (let ((.cse93 (store .cse92 .cse95 v_ArrVal_893))) (let ((.cse91 (select (select (store .cse93 .cse94 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse91) (= (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse91) (= (bvadd (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse91)))))) (= .cse96 (select (select (store .cse97 .cse94 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse103 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886) .cse105 v_ArrVal_890))) (let ((.cse102 (store .cse100 .cse104 v_ArrVal_893))) (let ((.cse101 (select (select (store .cse102 .cse103 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse101) (= (bvadd (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse101)))))) (= .cse105 (select (select (store .cse106 .cse103 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse117 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse115 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse116 (store .cse117 .cse115 v_ArrVal_889))) (let ((.cse111 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (store .cse116 .cse111 v_ArrVal_892)) (.cse112 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse114 (store (store .cse112 .cse115 v_ArrVal_890) .cse111 v_ArrVal_893)) (.cse110 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (select (select (store .cse114 .cse110 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse109 .cse110 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111)) (= (bvadd (_ bv4 32) (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse113) (= (bvadd (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse113)))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse4)) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse118 (let ((.cse120 (let ((.cse121 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (store .cse121 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse120 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse119 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse118 .cse119 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse119)))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse129 (store |c_#memory_$Pointer$.base| .cse4 v_ArrVal_887))) (let ((.cse128 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse126 (store .cse129 .cse128 v_ArrVal_889)) (.cse123 (store |c_#memory_$Pointer$.offset| .cse4 v_ArrVal_886))) (let ((.cse124 (store .cse123 .cse128 v_ArrVal_890)) (.cse127 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse125 (store .cse124 .cse127 v_ArrVal_893))) (let ((.cse122 (select (select (store .cse125 (select (select (store .cse126 .cse127 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse122) (= (bvadd (_ bv4 32) (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (_ bv8 32) (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) .cse122) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32)) .cse122))))))))))) is different from true [2023-11-24 02:40:16,922 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse59 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd .cse59 .cse3)) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse51 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse43 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (store .cse51 .cse43 v_ArrVal_889))) (let ((.cse49 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse50 .cse49 v_ArrVal_892))) (let ((.cse45 (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse43 (select (select (store .cse44 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse46 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse43 v_ArrVal_890))) (let ((.cse48 (store .cse46 .cse49 v_ArrVal_893))) (let ((.cse47 (select (select (store .cse48 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse47) (= (bvadd (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse47)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse58 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse56 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse57 (store .cse58 .cse56 v_ArrVal_889))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse57 .cse54 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse54) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse55 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse56 v_ArrVal_890) .cse54 v_ArrVal_893))) (= (bvadd (select (select .cse55 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse55 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (= .cse59 (_ bv0 32)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse68 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse66 (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse68 .cse66 v_ArrVal_889))) (let ((.cse62 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse67 .cse62 v_ArrVal_892)) (.cse63 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse65 (store (store .cse63 .cse66 v_ArrVal_890) .cse62 v_ArrVal_893)) (.cse61 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse64 (select (select (store .cse65 .cse61 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse60 .cse61 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62)) (= (bvadd (_ bv4 32) (select (select .cse63 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse64) (= .cse0 .cse64) (= (bvadd (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse64)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse70 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse70 v_ArrVal_889))) (let ((.cse71 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse71 v_ArrVal_892))) (let ((.cse72 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse69 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse69 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse69 .cse70 v_ArrVal_890) .cse71 v_ArrVal_893) .cse72 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse70 (select (select (store .cse73 .cse72 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse85 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse83 (select (select .cse85 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse84 (store .cse85 .cse83 v_ArrVal_889))) (let ((.cse76 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse82 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse80 (store .cse84 .cse82 v_ArrVal_892)) (.cse78 (store .cse76 .cse83 v_ArrVal_890))) (let ((.cse79 (store .cse78 .cse82 v_ArrVal_893)) (.cse81 (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse77 (select (select (store .cse79 .cse81 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse76 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse77) (= (bvadd (_ bv8 32) (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse77) (= (bvadd (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse77) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse80 .cse81 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse94 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse91 (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse93 (store .cse94 .cse91 v_ArrVal_889))) (let ((.cse90 (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse92 (store .cse93 .cse90 v_ArrVal_892))) (let ((.cse89 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse87 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse91 v_ArrVal_890))) (let ((.cse88 (store .cse87 .cse90 v_ArrVal_893))) (let ((.cse86 (select (select (store .cse88 .cse89 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse86) (= (bvadd (_ bv8 32) (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse86) (= (bvadd (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse86)))))) (= .cse91 (select (select (store .cse92 .cse89 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse97 (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse99 (store .cse100 .cse97 v_ArrVal_889))) (let ((.cse98 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (store .cse99 .cse98 v_ArrVal_892))) (let ((.cse96 (select (select .cse95 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse95 .cse96 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse96) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse97 v_ArrVal_890) .cse98 v_ArrVal_893) .cse96 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse108 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse103 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse103 v_ArrVal_889))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse104 v_ArrVal_892))) (let ((.cse102 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (select (select (store .cse106 .cse102 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse101 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse103 v_ArrVal_890) .cse104 v_ArrVal_893))) (= (bvadd (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse101 .cse102 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse105 .cse102)) (= .cse103 .cse105)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse116 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse113 (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse115 (store .cse116 .cse113 v_ArrVal_889))) (let ((.cse110 (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse114 (store .cse115 .cse110 v_ArrVal_892))) (let ((.cse112 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse109 (select (select (store .cse114 .cse112 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse109 .cse110)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse111 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse113 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse111 .cse110 v_ArrVal_893) .cse112 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse113 .cse109)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse126 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse124 (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse125 (store .cse126 .cse124 v_ArrVal_889))) (let ((.cse117 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse123 (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse121 (store .cse125 .cse123 v_ArrVal_892)) (.cse119 (store .cse117 .cse124 v_ArrVal_890))) (let ((.cse120 (store .cse119 .cse123 v_ArrVal_893)) (.cse122 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse118 (select (select (store .cse120 .cse122 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse118) (not (= (bvadd (_ bv8 32) (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse118)) (= (bvadd (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse118) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse121 .cse122 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse123)))))))))))) (= (_ bv0 32) |c_ULTIMATE.start_main_~i~0#1|) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse134 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse131 (select (select .cse134 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse133 (store .cse134 .cse131 v_ArrVal_889))) (let ((.cse132 (select (select .cse133 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse127 (store .cse133 .cse132 v_ArrVal_892))) (let ((.cse129 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse128 (select (select .cse127 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (select (select (store (store (store .cse129 .cse131 v_ArrVal_890) .cse132 v_ArrVal_893) .cse128 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse127 .cse128 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse128)) (= (bvadd (_ bv4 32) (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse130) (= .cse0 .cse130)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse143 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse141 (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse142 (store .cse143 .cse141 v_ArrVal_889))) (let ((.cse137 (select (select .cse142 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse135 (store .cse142 .cse137 v_ArrVal_892)) (.cse138 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse140 (store (store .cse138 .cse141 v_ArrVal_890) .cse137 v_ArrVal_893)) (.cse136 (select (select .cse135 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse139 (select (select (store .cse140 .cse136 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse135 .cse136 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse137)) (= (bvadd (_ bv4 32) (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse139) (= (bvadd (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse139)))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse6)) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse144 (let ((.cse146 (let ((.cse147 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse147 (select (select .cse147 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse146 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse145 (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse144 .cse145 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse145))))))) is different from true [2023-11-24 02:40:19,433 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse67 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd .cse67 .cse3)) (.cse26 (not (= |c_ULTIMATE.start_main_#t~pre10#1| (bvadd |c_#pthreadsForks| (_ bv1 32))))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse33 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse28 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse32 (store .cse33 .cse28 v_ArrVal_889))) (let ((.cse29 (select (select .cse32 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse31 (store .cse32 .cse29 v_ArrVal_892))) (let ((.cse30 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse27 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse27 .cse28 v_ArrVal_890) .cse29 v_ArrVal_893) .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse39 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse39 v_ArrVal_889))) (let ((.cse40 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse37 (store .cse41 .cse40 v_ArrVal_892)) (.cse34 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse36 (store (store .cse34 .cse39 v_ArrVal_890) .cse40 v_ArrVal_893)) (.cse38 (select (select .cse37 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse35 (select (select (store .cse36 .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse35) (not (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse37 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse50 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse46 (select (select .cse50 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse49 (store .cse50 .cse46 v_ArrVal_889))) (let ((.cse47 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse49 .cse47 v_ArrVal_892))) (let ((.cse45 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse44 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse46 v_ArrVal_890) .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 .cse45 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse43))))) (= (select (select (store .cse48 .cse45 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse47))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse59 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse51 (select (select .cse59 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse58 (store .cse59 .cse51 v_ArrVal_889))) (let ((.cse57 (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse52 (store .cse58 .cse57 v_ArrVal_892))) (let ((.cse53 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse51 (select (select (store .cse52 .cse53 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse54 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse51 v_ArrVal_890))) (let ((.cse56 (store .cse54 .cse57 v_ArrVal_893))) (let ((.cse55 (select (select (store .cse56 .cse53 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse55) (= (bvadd (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse55)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse64 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse64 v_ArrVal_889))) (let ((.cse62 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse65 .cse62 v_ArrVal_892))) (let ((.cse61 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse60 .cse61 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse63 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse64 v_ArrVal_890) .cse62 v_ArrVal_893))) (= (bvadd (select (select .cse63 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse63 .cse61 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (= .cse67 (_ bv0 32)) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse74 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse70 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse70 v_ArrVal_889))) (let ((.cse71 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse72 (store .cse73 .cse71 v_ArrVal_892))) (let ((.cse69 (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse68 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse70 v_ArrVal_890) .cse71 v_ArrVal_893))) (= (bvadd (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse68 .cse69 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse72 .cse69 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse71)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse83 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse82 (store .cse83 .cse81 v_ArrVal_889))) (let ((.cse77 (select (select .cse82 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse75 (store .cse82 .cse77 v_ArrVal_892)) (.cse78 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse80 (store (store .cse78 .cse81 v_ArrVal_890) .cse77 v_ArrVal_893)) (.cse76 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse79 (select (select (store .cse80 .cse76 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse75 .cse76 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse77)) (= (bvadd (_ bv4 32) (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse79) (= .cse0 .cse79) (= (bvadd (select (select .cse80 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse79)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse90 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse85 (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse89 (store .cse90 .cse85 v_ArrVal_889))) (let ((.cse86 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse88 (store .cse89 .cse86 v_ArrVal_892))) (let ((.cse87 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse84 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse84 .cse85 v_ArrVal_890) .cse86 v_ArrVal_893) .cse87 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse85 (select (select (store .cse88 .cse87 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse100 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse98 (select (select .cse100 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse99 (store .cse100 .cse98 v_ArrVal_889))) (let ((.cse91 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse97 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (store .cse99 .cse97 v_ArrVal_892)) (.cse93 (store .cse91 .cse98 v_ArrVal_890))) (let ((.cse94 (store .cse93 .cse97 v_ArrVal_893)) (.cse96 (select (select .cse95 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse92 (select (select (store .cse94 .cse96 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse92) (= (bvadd (_ bv8 32) (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse92) (= (bvadd (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse92) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse95 .cse96 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse109 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse106 (select (select .cse109 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse108 (store .cse109 .cse106 v_ArrVal_889))) (let ((.cse105 (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse107 (store .cse108 .cse105 v_ArrVal_892))) (let ((.cse104 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse102 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse106 v_ArrVal_890))) (let ((.cse103 (store .cse102 .cse105 v_ArrVal_893))) (let ((.cse101 (select (select (store .cse103 .cse104 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse101) (= (bvadd (_ bv8 32) (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse101) (= (bvadd (select (select .cse103 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse101)))))) (= .cse106 (select (select (store .cse107 .cse104 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse115 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse112 (select (select .cse115 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse114 (store .cse115 .cse112 v_ArrVal_889))) (let ((.cse113 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse110 (store .cse114 .cse113 v_ArrVal_892))) (let ((.cse111 (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse110 .cse111 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse112 v_ArrVal_890) .cse113 v_ArrVal_893) .cse111 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse124 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse119 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse123 (store .cse124 .cse119 v_ArrVal_889))) (let ((.cse122 (select (select .cse123 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse123 .cse122 v_ArrVal_892)) (.cse116 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse119 v_ArrVal_890))) (let ((.cse118 (store .cse116 .cse122 v_ArrVal_893)) (.cse121 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (select (select (store .cse118 .cse121 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse116 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse117) (= (bvadd (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse117) (= .cse119 (select (select (store .cse120 .cse121 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse132 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse127 (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse131 (store .cse132 .cse127 v_ArrVal_889))) (let ((.cse128 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse128 v_ArrVal_892))) (let ((.cse126 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (select (select (store .cse130 .cse126 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse125 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse127 v_ArrVal_890) .cse128 v_ArrVal_893))) (= (bvadd (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse125 .cse126 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse129 .cse126)) (= .cse127 .cse129)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse140 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse137 (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse139 (store .cse140 .cse137 v_ArrVal_889))) (let ((.cse134 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse134 v_ArrVal_892))) (let ((.cse136 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse133 (select (select (store .cse138 .cse136 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse133 .cse134)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse135 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse137 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse135 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse135 .cse134 v_ArrVal_893) .cse136 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse137 .cse133)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse150 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse148 (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse149 (store .cse150 .cse148 v_ArrVal_889))) (let ((.cse141 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse145 (store .cse149 .cse147 v_ArrVal_892)) (.cse143 (store .cse141 .cse148 v_ArrVal_890))) (let ((.cse144 (store .cse143 .cse147 v_ArrVal_893)) (.cse146 (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse142 (select (select (store .cse144 .cse146 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse141 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse142) (not (= (bvadd (_ bv8 32) (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse142)) (= (bvadd (select (select .cse144 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse142) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse145 .cse146 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse147)))))))))))) (= (_ bv0 32) |c_ULTIMATE.start_main_~i~0#1|) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse158 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse155 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse157 (store .cse158 .cse155 v_ArrVal_889))) (let ((.cse156 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse151 (store .cse157 .cse156 v_ArrVal_892))) (let ((.cse153 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse152 (select (select .cse151 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse154 (select (select (store (store (store .cse153 .cse155 v_ArrVal_890) .cse156 v_ArrVal_893) .cse152 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse151 .cse152 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse152)) (= (bvadd (_ bv4 32) (select (select .cse153 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse154) (= .cse0 .cse154)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse167 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse165 (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse166 (store .cse167 .cse165 v_ArrVal_889))) (let ((.cse161 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse159 (store .cse166 .cse161 v_ArrVal_892)) (.cse162 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse164 (store (store .cse162 .cse165 v_ArrVal_890) .cse161 v_ArrVal_893)) (.cse160 (select (select .cse159 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse163 (select (select (store .cse164 .cse160 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse159 .cse160 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse161)) (= (bvadd (_ bv4 32) (select (select .cse162 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse163) (= (bvadd (select (select .cse164 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse163)))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse175 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse174 (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse172 (store .cse175 .cse174 v_ArrVal_889)) (.cse168 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse170 (store .cse168 .cse174 v_ArrVal_890)) (.cse173 (select (select .cse172 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (store .cse170 .cse173 v_ArrVal_893))) (let ((.cse169 (select (select (store .cse171 (select (select (store .cse172 .cse173 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse168 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse169) (= (bvadd (_ bv8 32) (select (select .cse170 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse169) (= (bvadd (select (select .cse171 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse169))))))))) .cse26) (or .cse26 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse182 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse183 (store .cse184 .cse182 v_ArrVal_889))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse179 (store .cse183 .cse181 v_ArrVal_892)) (.cse176 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse178 (store (store .cse176 .cse182 v_ArrVal_890) .cse181 v_ArrVal_893)) (.cse180 (select (select .cse179 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse177 (select (select (store .cse178 .cse180 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse176 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse177) (= (bvadd (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse177) (= (select (select (store .cse179 .cse180 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse181))))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse6)) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse185 (let ((.cse187 (let ((.cse188 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse188 (select (select .cse188 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse186 (select (select .cse185 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse185 .cse186 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse186))))))) is different from true [2023-11-24 02:40:21,542 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse69 (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse3 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse0 (bvadd .cse69 .cse3)) (.cse43 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse6 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (and (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse10 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse7 (select (select .cse10 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse9 (store .cse10 .cse7 v_ArrVal_889))) (let ((.cse4 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse4 v_ArrVal_892))) (let ((.cse5 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse2 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse7 v_ArrVal_890))) (let ((.cse1 (select (select (store (store .cse2 .cse4 v_ArrVal_893) .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse1) (= (bvadd (_ bv8 32) (select (select .cse2 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse1))))) (= (select (select (store .cse8 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse5))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse14 (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse16 (store .cse17 .cse14 v_ArrVal_889))) (let ((.cse15 (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse16 .cse15 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse12)) (let ((.cse13 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse13 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse13 .cse14 v_ArrVal_890) .cse15 v_ArrVal_893) .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse25 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse24 (select (select .cse25 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (store .cse25 .cse24 v_ArrVal_889)) (.cse18 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse20 (store .cse18 .cse24 v_ArrVal_890)) (.cse23 (select (select .cse22 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse21 (store .cse20 .cse23 v_ArrVal_893))) (let ((.cse19 (select (select (store .cse21 (select (select (store .cse22 .cse23 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse18 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= .cse0 .cse19) (= (bvadd (_ bv8 32) (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse19) (= (bvadd (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse19))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse34 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse31 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse33 (store .cse34 .cse31 v_ArrVal_889))) (let ((.cse32 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse33 .cse32 v_ArrVal_892)) (.cse26 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse28 (store (store .cse26 .cse31 v_ArrVal_890) .cse32 v_ArrVal_893)) (.cse30 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse27 (select (select (store .cse28 .cse30 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse27) (not (= (bvadd (select (select .cse28 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse27)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse29 .cse30 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse30)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse42 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse38 (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse41 (store .cse42 .cse38 v_ArrVal_889))) (let ((.cse39 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse39 v_ArrVal_892))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse36 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse38 v_ArrVal_890) .cse39 v_ArrVal_893))) (let ((.cse35 (select (select (store .cse36 .cse37 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse35) (= (bvadd (select (select .cse36 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse35))))) (= (select (select (store .cse40 .cse37 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse39))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse52 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse47 (select (select .cse52 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse52 .cse47 v_ArrVal_889))) (let ((.cse50 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse48 (store .cse51 .cse50 v_ArrVal_892)) (.cse44 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse47 v_ArrVal_890))) (let ((.cse46 (store .cse44 .cse50 v_ArrVal_893)) (.cse49 (select (select .cse48 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse45 (select (select (store .cse46 .cse49 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse45) (= (bvadd (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse45) (= .cse47 (select (select (store .cse48 .cse49 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse61 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse53 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse60 (store .cse61 .cse53 v_ArrVal_889))) (let ((.cse59 (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse54 (store .cse60 .cse59 v_ArrVal_892))) (let ((.cse55 (select (select .cse54 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse53 (select (select (store .cse54 .cse55 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse56 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse53 v_ArrVal_890))) (let ((.cse58 (store .cse56 .cse59 v_ArrVal_893))) (let ((.cse57 (select (select (store .cse58 .cse55 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv8 32) (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse57) (= (bvadd (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse57)))))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse68 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse66 (select (select .cse68 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse67 (store .cse68 .cse66 v_ArrVal_889))) (let ((.cse64 (select (select .cse67 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse62 (store .cse67 .cse64 v_ArrVal_892))) (let ((.cse63 (select (select .cse62 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse62 .cse63 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse64) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse65 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse66 v_ArrVal_890) .cse64 v_ArrVal_893))) (= (bvadd (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse65 .cse63 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))) (= .cse69 (_ bv0 32)) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse77 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse76 (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse77 .cse76 v_ArrVal_889)) (.cse70 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse72 (store .cse70 .cse76 v_ArrVal_890)) (.cse75 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse72 .cse75 v_ArrVal_893))) (let ((.cse71 (select (select (store .cse73 (select (select (store .cse74 .cse75 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse70 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse71) (= (bvadd (_ bv8 32) (select (select .cse72 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse71) (= (bvadd (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse71))))))))) .cse43) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse86 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse84 (select (select .cse86 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse85 (store .cse86 .cse84 v_ArrVal_889))) (let ((.cse80 (select (select .cse85 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse78 (store .cse85 .cse80 v_ArrVal_892)) (.cse81 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse83 (store (store .cse81 .cse84 v_ArrVal_890) .cse80 v_ArrVal_893)) (.cse79 (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse82 (select (select (store .cse83 .cse79 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse78 .cse79 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse80)) (= (bvadd (_ bv4 32) (select (select .cse81 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse82) (= .cse0 .cse82) (= (bvadd (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse82)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse93 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse88 (select (select .cse93 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse92 (store .cse93 .cse88 v_ArrVal_889))) (let ((.cse89 (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse91 (store .cse92 .cse89 v_ArrVal_892))) (let ((.cse90 (select (select .cse91 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse87 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse87 .cse88 v_ArrVal_890) .cse89 v_ArrVal_893) .cse90 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= .cse88 (select (select (store .cse91 .cse90 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse103 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse101 (select (select .cse103 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse102 (store .cse103 .cse101 v_ArrVal_889))) (let ((.cse94 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse100 (select (select .cse102 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse102 .cse100 v_ArrVal_892)) (.cse96 (store .cse94 .cse101 v_ArrVal_890))) (let ((.cse97 (store .cse96 .cse100 v_ArrVal_893)) (.cse99 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse95 (select (select (store .cse97 .cse99 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse94 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse95) (= (bvadd (_ bv8 32) (select (select .cse96 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse95) (= (bvadd (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse95) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse98 .cse99 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse112 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse109 (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse111 (store .cse112 .cse109 v_ArrVal_889))) (let ((.cse108 (select (select .cse111 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse110 (store .cse111 .cse108 v_ArrVal_892))) (let ((.cse107 (select (select .cse110 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse105 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse109 v_ArrVal_890))) (let ((.cse106 (store .cse105 .cse108 v_ArrVal_893))) (let ((.cse104 (select (select (store .cse106 .cse107 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse0 .cse104) (= (bvadd (_ bv8 32) (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse104) (= (bvadd (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse104)))))) (= .cse109 (select (select (store .cse110 .cse107 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse119 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse114 (select (select .cse119 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse118 (store .cse119 .cse114 v_ArrVal_889))) (let ((.cse115 (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (store .cse118 .cse115 v_ArrVal_892))) (let ((.cse116 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse113 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store (store .cse113 .cse114 v_ArrVal_890) .cse115 v_ArrVal_893) .cse116 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse117 .cse116 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse116)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse125 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse122 (select (select .cse125 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse124 (store .cse125 .cse122 v_ArrVal_889))) (let ((.cse123 (select (select .cse124 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse120 (store .cse124 .cse123 v_ArrVal_892))) (let ((.cse121 (select (select .cse120 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse120 .cse121 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse121) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse0 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse122 v_ArrVal_890) .cse123 v_ArrVal_893) .cse121 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse132 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse128 (select (select .cse132 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse131 (store .cse132 .cse128 v_ArrVal_889))) (let ((.cse129 (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse130 (store .cse131 .cse129 v_ArrVal_892))) (let ((.cse127 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse126 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse128 v_ArrVal_890) .cse129 v_ArrVal_893))) (= (bvadd (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse126 .cse127 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse130 .cse127 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse129)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse140 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse135 (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse139 (store .cse140 .cse135 v_ArrVal_889))) (let ((.cse136 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse138 (store .cse139 .cse136 v_ArrVal_892))) (let ((.cse134 (select (select .cse138 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse137 (select (select (store .cse138 .cse134 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse133 (store (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse135 v_ArrVal_890) .cse136 v_ArrVal_893))) (= (bvadd (select (select .cse133 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) (select (select (store .cse133 .cse134 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (not (= .cse137 .cse134)) (= .cse135 .cse137)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse148 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse145 (select (select .cse148 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse147 (store .cse148 .cse145 v_ArrVal_889))) (let ((.cse142 (select (select .cse147 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse146 (store .cse147 .cse142 v_ArrVal_892))) (let ((.cse144 (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (select (select (store .cse146 .cse144 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse141 .cse142)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse143 (store (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886) .cse145 v_ArrVal_890))) (= (bvadd (_ bv8 32) (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) (select (select (store (store .cse143 .cse142 v_ArrVal_893) .cse144 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))) (= .cse145 .cse141)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse158 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse156 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse157 (store .cse158 .cse156 v_ArrVal_889))) (let ((.cse149 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse155 (select (select .cse157 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse153 (store .cse157 .cse155 v_ArrVal_892)) (.cse151 (store .cse149 .cse156 v_ArrVal_890))) (let ((.cse152 (store .cse151 .cse155 v_ArrVal_893)) (.cse154 (select (select .cse153 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse150 (select (select (store .cse152 .cse154 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse150) (not (= (bvadd (_ bv8 32) (select (select .cse151 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse150)) (= (bvadd (select (select .cse152 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse150) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse153 .cse154 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse155)))))))))))) (= (_ bv0 32) |c_ULTIMATE.start_main_~i~0#1|) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse166 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse163 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse165 (store .cse166 .cse163 v_ArrVal_889))) (let ((.cse164 (select (select .cse165 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse159 (store .cse165 .cse164 v_ArrVal_892))) (let ((.cse161 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886)) (.cse160 (select (select .cse159 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse162 (select (select (store (store (store .cse161 .cse163 v_ArrVal_890) .cse164 v_ArrVal_893) .cse160 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse159 .cse160 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse160)) (= (bvadd (_ bv4 32) (select (select .cse161 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse162) (= .cse0 .cse162)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse175 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse173 (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse174 (store .cse175 .cse173 v_ArrVal_889))) (let ((.cse169 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse167 (store .cse174 .cse169 v_ArrVal_892)) (.cse170 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse172 (store (store .cse170 .cse173 v_ArrVal_890) .cse169 v_ArrVal_893)) (.cse168 (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse171 (select (select (store .cse172 .cse168 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse167 .cse168 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse169)) (= (bvadd (_ bv4 32) (select (select .cse170 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse171) (= (bvadd (select (select .cse172 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse171)))))))))) (or .cse43 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse184 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (let ((.cse182 (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse183 (store .cse184 .cse182 v_ArrVal_889))) (let ((.cse181 (select (select .cse183 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse179 (store .cse183 .cse181 v_ArrVal_892)) (.cse176 (store |c_#memory_$Pointer$.offset| .cse6 v_ArrVal_886))) (let ((.cse178 (store (store .cse176 .cse182 v_ArrVal_890) .cse181 v_ArrVal_893)) (.cse180 (select (select .cse179 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse177 (select (select (store .cse178 .cse180 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse176 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse3) .cse177) (= (bvadd (select (select .cse178 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse3) .cse177) (= (select (select (store .cse179 .cse180 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse181))))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse6)) (= (bvadd |c_ULTIMATE.start_main_#t~pre10#1| (_ bv1 32)) |c_#pthreadsForks|) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse185 (let ((.cse187 (let ((.cse188 (store |c_#memory_$Pointer$.base| .cse6 v_ArrVal_887))) (store .cse188 (select (select .cse188 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse187 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse186 (select (select .cse185 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse185 .cse186 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse186))))))) is different from true [2023-11-24 02:40:23,674 WARN L876 $PredicateComparison]: unable to prove that (let ((.cse1 (bvmul (_ bv4 32) |c_ULTIMATE.start_main_~i~0#1|))) (let ((.cse67 (select (select |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)) (.cse10 (not (= |c_#pthreadsForks| |c_ULTIMATE.start_main_#t~pre10#1|))) (.cse14 (bvadd |c_ULTIMATE.start_main_#t~mem11#1.offset| .cse1))) (and (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse9 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse7 (select (select .cse9 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse8 (store .cse9 .cse7 v_ArrVal_889))) (let ((.cse6 (select (select .cse8 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse4 (store .cse8 .cse6 v_ArrVal_892)) (.cse0 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse3 (store (store .cse0 .cse7 v_ArrVal_890) .cse6 v_ArrVal_893)) (.cse5 (select (select .cse4 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse2 (select (select (store .cse3 .cse5 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse0 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse2) (= (bvadd (select (select .cse3 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse2) (= (select (select (store .cse4 .cse5 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse6)))))))))) .cse10) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse20 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse13 (select (select .cse20 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse19 (store .cse20 .cse13 v_ArrVal_889))) (let ((.cse18 (select (select .cse19 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse11 (store .cse19 .cse18 v_ArrVal_892))) (let ((.cse12 (select (select .cse11 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse11 .cse12 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse13) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse17 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse13 v_ArrVal_890))) (let ((.cse16 (store .cse17 .cse18 v_ArrVal_893))) (let ((.cse15 (select (select (store .cse16 .cse12 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse15) (= (bvadd (select (select .cse16 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse15) (= .cse15 (bvadd (_ bv8 32) (select (select .cse17 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse30 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse28 (select (select .cse30 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse29 (store .cse30 .cse28 v_ArrVal_889))) (let ((.cse21 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse25 (select (select .cse29 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse23 (store .cse29 .cse25 v_ArrVal_892)) (.cse27 (store .cse21 .cse28 v_ArrVal_890))) (let ((.cse26 (store .cse27 .cse25 v_ArrVal_893)) (.cse24 (select (select .cse23 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse22 (select (select (store .cse26 .cse24 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse21 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse22) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse23 .cse24 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse25))) (= (bvadd (select (select .cse26 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse22) (not (= .cse22 (bvadd (_ bv8 32) (select (select .cse27 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))) (or (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse31 (let ((.cse33 (let ((.cse34 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse34 (select (select .cse34 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse33 (select (select .cse33 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse32 (select (select .cse31 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse31 .cse32 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse32)))) .cse10) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse41 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse36 (select (select .cse41 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse40 (store .cse41 .cse36 v_ArrVal_889))) (let ((.cse37 (select (select .cse40 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse39 (store .cse40 .cse37 v_ArrVal_892))) (let ((.cse38 (select (select .cse39 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse35 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse35 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse35 .cse36 v_ArrVal_890) .cse37 v_ArrVal_893) .cse38 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse39 .cse38 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse38))))))))) .cse10) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse49 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse48 (select (select .cse49 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse46 (store .cse49 .cse48 v_ArrVal_889)) (.cse42 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse45 (store .cse42 .cse48 v_ArrVal_890)) (.cse47 (select (select .cse46 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse44 (store .cse45 .cse47 v_ArrVal_893))) (let ((.cse43 (select (select (store .cse44 (select (select (store .cse46 .cse47 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse42 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse43) (= (bvadd (select (select .cse44 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse43) (= .cse43 (bvadd (_ bv8 32) (select (select .cse45 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse57 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse54 (select (select .cse57 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse56 (store .cse57 .cse54 v_ArrVal_889))) (let ((.cse55 (select (select .cse56 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse51 (store .cse56 .cse55 v_ArrVal_892))) (let ((.cse53 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse52 (select (select .cse51 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse50 (select (select (store (store (store .cse53 .cse54 v_ArrVal_890) .cse55 v_ArrVal_893) .cse52 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse50) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse51 .cse52 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse52)) (= (bvadd (_ bv4 32) (select (select .cse53 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse50)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse66 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse63 (select (select .cse66 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse65 (store .cse66 .cse63 v_ArrVal_889))) (let ((.cse64 (select (select .cse65 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse61 (store .cse65 .cse64 v_ArrVal_892)) (.cse58 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse60 (store (store .cse58 .cse63 v_ArrVal_890) .cse64 v_ArrVal_893)) (.cse62 (select (select .cse61 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse59 (select (select (store .cse60 .cse62 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse58 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse59) (not (= (bvadd (select (select .cse60 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse59)) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (not (= (select (select (store .cse61 .cse62 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse62)))))))))))) (= (select (select |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv0 32)) (= |c_ULTIMATE.start_main_#t~mem11#1.base| .cse67) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse75 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse70 (select (select .cse75 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse74 (store .cse75 .cse70 v_ArrVal_889))) (let ((.cse69 (select (select .cse74 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse73 (store .cse74 .cse69 v_ArrVal_892))) (let ((.cse72 (select (select .cse73 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse68 (select (select (store .cse73 .cse72 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse68 .cse69)) (= .cse68 .cse70) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse71 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse70 v_ArrVal_890))) (= (select (select (store (store .cse71 .cse69 v_ArrVal_893) .cse72 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (bvadd (_ bv8 32) (select (select .cse71 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse84 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse82 (select (select .cse84 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse83 (store .cse84 .cse82 v_ArrVal_889))) (let ((.cse81 (select (select .cse83 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse79 (store .cse83 .cse81 v_ArrVal_892)) (.cse77 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse78 (store (store .cse77 .cse82 v_ArrVal_890) .cse81 v_ArrVal_893)) (.cse80 (select (select .cse79 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse76 (select (select (store .cse78 .cse80 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse76) (= (bvadd (_ bv4 32) (select (select .cse77 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse76) (= (bvadd (select (select .cse78 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse76) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse79 .cse80 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse81))))))))))) (= (_ bv0 32) |c_ULTIMATE.start_main_~i~0#1|) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse87 (let ((.cse88 (let ((.cse89 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (store .cse89 (select (select .cse89 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_889)))) (store .cse88 (select (select .cse88 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_892)))) (let ((.cse86 (select (select .cse87 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse85 (select (select (store .cse87 .cse86 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse85 .cse86) (= .cse85 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse99 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse95 (select (select .cse99 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse98 (store .cse99 .cse95 v_ArrVal_889))) (let ((.cse94 (select (select .cse98 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse97 (store .cse98 .cse94 v_ArrVal_892))) (let ((.cse93 (select (select .cse97 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse96 (select (select (store .cse97 .cse93 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse92 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse95 v_ArrVal_890))) (let ((.cse90 (store .cse92 .cse94 v_ArrVal_893))) (let ((.cse91 (select (select (store .cse90 .cse93 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse90 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse91) (= .cse91 (bvadd (_ bv8 32) (select (select .cse92 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))) (= .cse96 .cse95) (= .cse96 |c_ULTIMATE.start_main_#t~mem11#1.base|)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse107 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse103 (select (select .cse107 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse106 (store .cse107 .cse103 v_ArrVal_889))) (let ((.cse104 (select (select .cse106 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse105 (store .cse106 .cse104 v_ArrVal_892))) (let ((.cse102 (select (select .cse105 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse101 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse103 v_ArrVal_890) .cse104 v_ArrVal_893))) (let ((.cse100 (select (select (store .cse101 .cse102 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse100) (= (bvadd (select (select .cse101 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse100))))) (= (select (select (store .cse105 .cse102 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse104))))))))) (or .cse10 (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse114 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse110 (select (select .cse114 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse113 (store .cse114 .cse110 v_ArrVal_889))) (let ((.cse111 (select (select .cse113 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse112 (store .cse113 .cse111 v_ArrVal_892))) (let ((.cse109 (select (select .cse112 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (let ((.cse108 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse110 v_ArrVal_890) .cse111 v_ArrVal_893))) (= (bvadd (select (select .cse108 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse108 .cse109 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (= (select (select (store .cse112 .cse109 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse111)))))))))) (= |c_ULTIMATE.start_main_#t~mem11#1.offset| (_ bv0 32)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse122 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse119 (select (select .cse122 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse121 (store .cse122 .cse119 v_ArrVal_889))) (let ((.cse120 (select (select .cse121 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse117 (store .cse121 .cse120 v_ArrVal_892))) (let ((.cse116 (select (select .cse117 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse115 (select (select (store .cse117 .cse116 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse115 .cse116) (= .cse115 |c_ULTIMATE.start_main_#t~mem11#1.base|)))) (let ((.cse118 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse118 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse118 .cse119 v_ArrVal_890) .cse120 v_ArrVal_893) .cse116 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse130 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse125 (select (select .cse130 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse129 (store .cse130 .cse125 v_ArrVal_889))) (let ((.cse127 (select (select .cse129 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse128 (store .cse129 .cse127 v_ArrVal_892))) (let ((.cse124 (select (select .cse128 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse123 (select (select (store .cse128 .cse124 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (= .cse123 .cse124)) (= .cse123 .cse125) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (not (let ((.cse126 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse125 v_ArrVal_890) .cse127 v_ArrVal_893))) (= (bvadd (select (select .cse126 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse126 .cse124 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse140 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse138 (select (select .cse140 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse139 (store .cse140 .cse138 v_ArrVal_889))) (let ((.cse134 (select (select .cse139 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse135 (store .cse139 .cse134 v_ArrVal_892)) (.cse131 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse137 (store (store .cse131 .cse138 v_ArrVal_890) .cse134 v_ArrVal_893)) (.cse136 (select (select .cse135 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse132 (select (select (store .cse137 .cse136 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (_ bv4 32) (select (select .cse131 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse132) (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse133 (select (select (store .cse135 .cse136 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse133 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse133 .cse134)))) (= (bvadd (select (select .cse137 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse132)))))))))) (not (= |c_ULTIMATE.start_main_~#tids~0#1.base| .cse67)) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse150 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse148 (select (select .cse150 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse149 (store .cse150 .cse148 v_ArrVal_889))) (let ((.cse143 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886)) (.cse147 (select (select .cse149 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse141 (store .cse149 .cse147 v_ArrVal_892)) (.cse146 (store .cse143 .cse148 v_ArrVal_890))) (let ((.cse145 (store .cse146 .cse147 v_ArrVal_893)) (.cse142 (select (select .cse141 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse144 (select (select (store .cse145 .cse142 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32)))) (= (select (select (store .cse141 .cse142 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) |c_ULTIMATE.start_main_#t~mem11#1.base|)) (= (bvadd (_ bv4 32) (select (select .cse143 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse144) (= (bvadd (select (select .cse145 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse144) (= .cse144 (bvadd (_ bv8 32) (select (select .cse146 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse159 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse155 (select (select .cse159 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse158 (store .cse159 .cse155 v_ArrVal_889))) (let ((.cse157 (select (select .cse158 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse153 (store .cse158 .cse157 v_ArrVal_892)) (.cse156 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse155 v_ArrVal_890))) (let ((.cse151 (store .cse156 .cse157 v_ArrVal_893)) (.cse154 (select (select .cse153 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse152 (select (select (store .cse151 .cse154 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (bvadd (select (select .cse151 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse152) (= (select (select (store .cse153 .cse154 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse155) (= .cse152 (bvadd (_ bv8 32) (select (select .cse156 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1))))))))))) .cse10) (= (bvadd |c_ULTIMATE.start_main_#t~pre10#1| (_ bv1 32)) |c_#pthreadsForks|) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse167 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse165 (select (select .cse167 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse166 (store .cse167 .cse165 v_ArrVal_889))) (let ((.cse164 (select (select .cse166 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse160 (store .cse166 .cse164 v_ArrVal_892))) (let ((.cse161 (select (select .cse160 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse160 .cse161 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse161) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse163 (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse165 v_ArrVal_890))) (let ((.cse162 (select (select (store (store .cse163 .cse164 v_ArrVal_893) .cse161 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse162) (= .cse162 (bvadd (_ bv8 32) (select (select .cse163 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse174 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse169 (select (select .cse174 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse173 (store .cse174 .cse169 v_ArrVal_889))) (let ((.cse170 (select (select .cse173 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse172 (store .cse173 .cse170 v_ArrVal_892))) (let ((.cse171 (select (select .cse172 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (not (let ((.cse168 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (= (bvadd (_ bv4 32) (select (select .cse168 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) (select (select (store (store (store .cse168 .cse169 v_ArrVal_890) .cse170 v_ArrVal_893) .cse171 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (not (= (select (select (store .cse172 .cse171 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse169)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse182 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse177 (select (select .cse182 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse181 (store .cse182 .cse177 v_ArrVal_889))) (let ((.cse178 (select (select .cse181 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse180 (store .cse181 .cse178 v_ArrVal_892))) (let ((.cse176 (select (select .cse180 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse179 (select (select (store .cse180 .cse176 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse175 (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse177 v_ArrVal_890) .cse178 v_ArrVal_893))) (= (bvadd (select (select .cse175 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) (select (select (store .cse175 .cse176 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))) (= .cse179 |c_ULTIMATE.start_main_#t~mem11#1.base|) (= .cse179 .cse178)))))))))) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse190 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse189 (select (select .cse190 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse187 (store .cse190 .cse189 v_ArrVal_889)) (.cse184 (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886))) (let ((.cse186 (store .cse184 .cse189 v_ArrVal_890)) (.cse188 (select (select .cse187 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse185 (store .cse186 .cse188 v_ArrVal_893))) (let ((.cse183 (select (select (store .cse185 (select (select (store .cse187 .cse188 v_ArrVal_892) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= .cse14 .cse183) (= (bvadd (_ bv4 32) (select (select .cse184 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1) .cse183) (= (bvadd (select (select .cse185 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) (_ bv12 32) .cse1) .cse183) (= .cse183 (bvadd (_ bv8 32) (select (select .cse186 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse1)))))))))) (forall ((v_ArrVal_892 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_897 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_887 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_889 (Array (_ BitVec 32) (_ BitVec 32)))) (let ((.cse196 (store |c_#memory_$Pointer$.base| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_887))) (let ((.cse193 (select (select .cse196 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse195 (store .cse196 .cse193 v_ArrVal_889))) (let ((.cse194 (select (select .cse195 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (let ((.cse191 (store .cse195 .cse194 v_ArrVal_892))) (let ((.cse192 (select (select .cse191 |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|))) (or (= (select (select (store .cse191 .cse192 v_ArrVal_897) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|) .cse192) (forall ((v_ArrVal_893 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_895 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_890 (Array (_ BitVec 32) (_ BitVec 32))) (v_ArrVal_886 (Array (_ BitVec 32) (_ BitVec 32)))) (= .cse14 (select (select (store (store (store (store |c_#memory_$Pointer$.offset| |c_ULTIMATE.start_main_#t~mem11#1.base| v_ArrVal_886) .cse193 v_ArrVal_890) .cse194 v_ArrVal_893) .cse192 v_ArrVal_895) |c_ULTIMATE.start_main_~#tids~0#1.base|) |c_ULTIMATE.start_main_~#tids~0#1.offset|)))))))))))))) is different from true [2023-11-24 02:43:23,166 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:23,166 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:23,166 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:23,166 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 27 states. [2023-11-24 02:43:23,166 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 35 states. [2023-11-24 02:43:23,167 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 33 states. [2023-11-24 02:43:23,167 INFO L805 garLoopResultBuilder]: Registering result SAFE for location threadErr0ASSERT_VIOLATIONDATA_RACE (0 of 1 remaining) [2023-11-24 02:43:23,172 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (29)] Forceful destruction successful, exit code 0 [2023-11-24 02:43:23,367 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 29 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:23,370 INFO L445 BasicCegarLoop]: Path program histogram: [2, 1, 1, 1, 1] [2023-11-24 02:43:23,370 INFO L307 ceAbstractionStarter]: Result for error location threadThread3of4ForFork0 was SAFE (1/5) [2023-11-24 02:43:23,371 INFO L100 denceProviderFactory]: Independence Relation #1: [IndependenceType=SEMANTIC, AbstractionType=VARIABLES_GLOBAL, UseConditional=true, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:43:23,372 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 [2023-11-24 02:43:23,372 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 [2023-11-24 02:43:23,373 INFO L229 MonitoredProcess]: Starting monitored process 30 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (exit command is (exit), workingDir is null) [2023-11-24 02:43:23,374 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true -t:1000 (30)] Waiting until timeout for monitored process [2023-11-24 02:43:23,390 INFO L159 artialOrderCegarLoop]: Running PartialOrderCegarLoop with 1 independence relations. [2023-11-24 02:43:23,390 INFO L356 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == threadThread1of4ForFork0 ======== [2023-11-24 02:43:23,390 INFO L357 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=FPandBP, mInterpolantAutomaton=STRAIGHT_LINE, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=PARTIAL_ORDER_FA, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopHeads, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=false, mMcrInterpolantMethod=WP, mPorIndependenceSettings=[Lde.uni_freiburg.informatik.ultimate.lib.tracecheckerutils.partialorder.independence.IndependenceSettings;@23010ee8, mLbeIndependenceSettings=[IndependenceType=SEMANTIC, AbstractionType=NONE, UseConditional=false, UseSemiCommutativity=true, Solver=Z3, SolverTimeout=1000ms] [2023-11-24 02:43:23,390 INFO L358 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2023-11-24 02:43:23,429 INFO L420 AbstractCegarLoop]: === Iteration 1 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:43:23,430 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:43:23,430 INFO L85 PathProgramCache]: Analyzing trace with hash -420206556, now seen corresponding path program 1 times [2023-11-24 02:43:23,430 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:43:23,430 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [71133739] [2023-11-24 02:43:23,430 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:43:23,430 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:23,430 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:43:23,431 INFO L229 MonitoredProcess]: Starting monitored process 31 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:43:23,432 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (31)] Waiting until timeout for monitored process [2023-11-24 02:43:23,517 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:43:23,519 INFO L262 TraceCheckSpWp]: Trace formula consists of 93 conjuncts, 1 conjunts are in the unsatisfiable core [2023-11-24 02:43:23,519 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:43:23,520 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:43:23,520 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:43:23,520 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:43:23,520 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [71133739] [2023-11-24 02:43:23,520 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [71133739] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:43:23,520 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:43:23,520 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:43:23,520 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [243941340] [2023-11-24 02:43:23,520 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:43:23,521 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 2 states [2023-11-24 02:43:23,521 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:43:23,521 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2023-11-24 02:43:23,521 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2023-11-24 02:43:23,521 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:23,521 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:43:23,521 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 2 states, 2 states have (on average 23.5) internal successors, (47), 2 states have internal predecessors, (47), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:43:23,521 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:23,618 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:23,621 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (31)] Forceful destruction successful, exit code 0 [2023-11-24 02:43:23,818 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 31 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:23,819 INFO L420 AbstractCegarLoop]: === Iteration 2 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:43:23,819 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:43:23,819 INFO L85 PathProgramCache]: Analyzing trace with hash -1967755442, now seen corresponding path program 1 times [2023-11-24 02:43:23,819 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:43:23,819 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1619121327] [2023-11-24 02:43:23,819 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:43:23,819 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:23,819 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:43:23,820 INFO L229 MonitoredProcess]: Starting monitored process 32 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:43:23,846 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (32)] Waiting until timeout for monitored process [2023-11-24 02:43:23,925 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:43:23,927 INFO L262 TraceCheckSpWp]: Trace formula consists of 92 conjuncts, 2 conjunts are in the unsatisfiable core [2023-11-24 02:43:23,927 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:43:24,194 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2023-11-24 02:43:24,194 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:43:24,194 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:43:24,194 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1619121327] [2023-11-24 02:43:24,194 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1619121327] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:43:24,194 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:43:24,194 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2023-11-24 02:43:24,194 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [1331223658] [2023-11-24 02:43:24,194 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:43:24,194 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:43:24,194 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:43:24,195 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:43:24,195 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:43:24,195 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:24,195 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:43:24,195 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 2 states have (on average 23.0) internal successors, (46), 3 states have internal predecessors, (46), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:43:24,195 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:24,195 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:26,764 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:26,765 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:26,770 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (32)] Forceful destruction successful, exit code 0 [2023-11-24 02:43:26,965 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 32 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:26,965 INFO L420 AbstractCegarLoop]: === Iteration 3 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:43:26,966 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:43:26,966 INFO L85 PathProgramCache]: Analyzing trace with hash 1902003493, now seen corresponding path program 1 times [2023-11-24 02:43:26,966 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:43:26,966 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [1756037652] [2023-11-24 02:43:26,966 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:43:26,966 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:26,966 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:43:26,967 INFO L229 MonitoredProcess]: Starting monitored process 33 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:43:26,968 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (33)] Waiting until timeout for monitored process [2023-11-24 02:43:27,079 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:43:27,083 INFO L262 TraceCheckSpWp]: Trace formula consists of 167 conjuncts, 3 conjunts are in the unsatisfiable core [2023-11-24 02:43:27,084 INFO L285 TraceCheckSpWp]: Computing forward predicates... [2023-11-24 02:43:27,179 INFO L378 Elim1Store]: Elim1 eliminated variable of array dimension 2, 1 stores, 0 select indices, 0 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 0 new quantified variables, introduced 0 case distinctions, treesize of input 11 treesize of output 9 [2023-11-24 02:43:30,871 INFO L134 CoverageAnalysis]: Checked inductivity of 35 backedges. 20 proven. 0 refuted. 0 times theorem prover too weak. 15 trivial. 0 not checked. [2023-11-24 02:43:30,872 INFO L323 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2023-11-24 02:43:30,872 INFO L136 FreeRefinementEngine]: Strategy WOLF found an infeasible trace [2023-11-24 02:43:30,872 INFO L334 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleMathsat [1756037652] [2023-11-24 02:43:30,872 INFO L158 FreeRefinementEngine]: IpTcStrategyModuleMathsat [1756037652] provided 1 perfect and 0 imperfect interpolant sequences [2023-11-24 02:43:30,872 INFO L185 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2023-11-24 02:43:30,872 INFO L198 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2023-11-24 02:43:30,872 INFO L121 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleStraightlineAll [396390344] [2023-11-24 02:43:30,872 INFO L85 oduleStraightlineAll]: Using 1 perfect interpolants to construct interpolant automaton [2023-11-24 02:43:30,872 INFO L571 AbstractCegarLoop]: INTERPOLANT automaton has 3 states [2023-11-24 02:43:30,872 INFO L100 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy WOLF [2023-11-24 02:43:30,872 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2023-11-24 02:43:30,872 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2023-11-24 02:43:30,873 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:30,873 INFO L495 AbstractCegarLoop]: Abstraction has currently 0 states, but on-demand construction may add more states [2023-11-24 02:43:30,873 INFO L496 AbstractCegarLoop]: INTERPOLANT automaton has has 3 states, 3 states have (on average 23.666666666666668) internal successors, (71), 3 states have internal predecessors, (71), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2023-11-24 02:43:30,873 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:30,873 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:30,873 INFO L154 InterpolantAutomaton]: Switched to On-DemandConstruction mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:32,832 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2023-11-24 02:43:32,832 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:32,832 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2023-11-24 02:43:32,835 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (33)] Forceful destruction successful, exit code 0 [2023-11-24 02:43:33,032 WARN L477 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 33 /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:33,033 INFO L420 AbstractCegarLoop]: === Iteration 4 === Targeting threadErr0ASSERT_VIOLATIONDATA_RACE === [threadErr0ASSERT_VIOLATIONDATA_RACE] === [2023-11-24 02:43:33,033 INFO L160 PredicateUnifier]: Initialized classic predicate unifier [2023-11-24 02:43:33,033 INFO L85 PathProgramCache]: Analyzing trace with hash 357394828, now seen corresponding path program 1 times [2023-11-24 02:43:33,033 INFO L118 FreeRefinementEngine]: Executing refinement strategy WOLF [2023-11-24 02:43:33,033 INFO L334 FreeRefinementEngine]: Using trace check IpTcStrategyModuleMathsat [2144570349] [2023-11-24 02:43:33,033 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2023-11-24 02:43:33,033 INFO L173 SolverBuilder]: Constructing external solver with command: mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 [2023-11-24 02:43:33,033 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat [2023-11-24 02:43:33,034 INFO L229 MonitoredProcess]: Starting monitored process 34 with /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (exit command is (exit), workingDir is null) [2023-11-24 02:43:33,035 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UGemCutter-linux/mathsat -theory.fp.to_bv_overflow_mode=1 -theory.fp.minmax_zero_mode=4 -theory.bv.div_by_zero_mode=1 -unsat_core_generation=3 (34)] Waiting until timeout for monitored process [2023-11-24 02:43:33,164 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2023-11-24 02:43:33,166 INFO L262 TraceCheckSpWp]: Trace formula consists of 242 conjuncts, 17 conjunts are in the unsatisfiable core [2023-11-24 02:43:33,168 INFO L285 TraceCheckSpWp]: Computing forward predicates... Killed by 15