java -ea -Xmx8000000000 -jar /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/plugins/org.eclipse.equinox.launcher_1.3.100.v20150511-1540.jar -data @noDefault -ultimatedata /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/data -tc ../../../trunk/examples/toolchains/AutomizerCInline_WitnessPrinter.xml -s ../../../trunk/examples/settings/default/automizer/svcomp-Reach-32bit-Automizer_Bitvector.epf -i ../../../trunk/examples/svcomp/ldv-regression/test25_false-unreach-call_true-termination.c -------------------------------------------------------------------------------- This is Ultimate 0.1.23-61f4311 [2018-11-23 11:07:05,114 INFO L170 SettingsManager]: Resetting all preferences to default values... [2018-11-23 11:07:05,117 INFO L174 SettingsManager]: Resetting UltimateCore preferences to default values [2018-11-23 11:07:05,131 INFO L177 SettingsManager]: Ultimate Commandline Interface provides no preferences, ignoring... [2018-11-23 11:07:05,132 INFO L174 SettingsManager]: Resetting Boogie Preprocessor preferences to default values [2018-11-23 11:07:05,133 INFO L174 SettingsManager]: Resetting Boogie Procedure Inliner preferences to default values [2018-11-23 11:07:05,134 INFO L174 SettingsManager]: Resetting Abstract Interpretation preferences to default values [2018-11-23 11:07:05,137 INFO L174 SettingsManager]: Resetting LassoRanker preferences to default values [2018-11-23 11:07:05,139 INFO L174 SettingsManager]: Resetting Reaching Definitions preferences to default values [2018-11-23 11:07:05,140 INFO L174 SettingsManager]: Resetting SyntaxChecker preferences to default values [2018-11-23 11:07:05,143 INFO L177 SettingsManager]: Büchi Program Product provides no preferences, ignoring... [2018-11-23 11:07:05,143 INFO L174 SettingsManager]: Resetting LTL2Aut preferences to default values [2018-11-23 11:07:05,144 INFO L174 SettingsManager]: Resetting PEA to Boogie preferences to default values [2018-11-23 11:07:05,145 INFO L174 SettingsManager]: Resetting BlockEncodingV2 preferences to default values [2018-11-23 11:07:05,151 INFO L174 SettingsManager]: Resetting ChcToBoogie preferences to default values [2018-11-23 11:07:05,152 INFO L174 SettingsManager]: Resetting AutomataScriptInterpreter preferences to default values [2018-11-23 11:07:05,153 INFO L174 SettingsManager]: Resetting BuchiAutomizer preferences to default values [2018-11-23 11:07:05,156 INFO L174 SettingsManager]: Resetting CACSL2BoogieTranslator preferences to default values [2018-11-23 11:07:05,158 INFO L174 SettingsManager]: Resetting CodeCheck preferences to default values [2018-11-23 11:07:05,160 INFO L174 SettingsManager]: Resetting InvariantSynthesis preferences to default values [2018-11-23 11:07:05,161 INFO L174 SettingsManager]: Resetting RCFGBuilder preferences to default values [2018-11-23 11:07:05,162 INFO L174 SettingsManager]: Resetting TraceAbstraction preferences to default values [2018-11-23 11:07:05,165 INFO L177 SettingsManager]: TraceAbstractionConcurrent provides no preferences, ignoring... [2018-11-23 11:07:05,165 INFO L177 SettingsManager]: TraceAbstractionWithAFAs provides no preferences, ignoring... [2018-11-23 11:07:05,166 INFO L174 SettingsManager]: Resetting TreeAutomizer preferences to default values [2018-11-23 11:07:05,167 INFO L174 SettingsManager]: Resetting IcfgTransformer preferences to default values [2018-11-23 11:07:05,168 INFO L174 SettingsManager]: Resetting Boogie Printer preferences to default values [2018-11-23 11:07:05,168 INFO L174 SettingsManager]: Resetting ReqPrinter preferences to default values [2018-11-23 11:07:05,169 INFO L174 SettingsManager]: Resetting Witness Printer preferences to default values [2018-11-23 11:07:05,170 INFO L177 SettingsManager]: Boogie PL CUP Parser provides no preferences, ignoring... [2018-11-23 11:07:05,171 INFO L174 SettingsManager]: Resetting CDTParser preferences to default values [2018-11-23 11:07:05,171 INFO L177 SettingsManager]: AutomataScriptParser provides no preferences, ignoring... [2018-11-23 11:07:05,172 INFO L177 SettingsManager]: ReqParser provides no preferences, ignoring... [2018-11-23 11:07:05,172 INFO L174 SettingsManager]: Resetting SmtParser preferences to default values [2018-11-23 11:07:05,173 INFO L174 SettingsManager]: Resetting Witness Parser preferences to default values [2018-11-23 11:07:05,177 INFO L181 SettingsManager]: Finished resetting all preferences to default values... [2018-11-23 11:07:05,177 INFO L98 SettingsManager]: Beginning loading settings from /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/settings/default/automizer/svcomp-Reach-32bit-Automizer_Bitvector.epf [2018-11-23 11:07:05,193 INFO L110 SettingsManager]: Loading preferences was successful [2018-11-23 11:07:05,193 INFO L112 SettingsManager]: Preferences different from defaults after loading the file: [2018-11-23 11:07:05,194 INFO L131 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2018-11-23 11:07:05,194 INFO L133 SettingsManager]: * ... calls to implemented procedures=ONLY_FOR_CONCURRENT_PROGRAMS [2018-11-23 11:07:05,197 INFO L131 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2018-11-23 11:07:05,197 INFO L133 SettingsManager]: * Create parallel compositions if possible=false [2018-11-23 11:07:05,197 INFO L133 SettingsManager]: * Use SBE=true [2018-11-23 11:07:05,197 INFO L131 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2018-11-23 11:07:05,197 INFO L133 SettingsManager]: * sizeof long=4 [2018-11-23 11:07:05,199 INFO L133 SettingsManager]: * sizeof POINTER=4 [2018-11-23 11:07:05,199 INFO L133 SettingsManager]: * Check division by zero=IGNORE [2018-11-23 11:07:05,199 INFO L133 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2018-11-23 11:07:05,199 INFO L133 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2018-11-23 11:07:05,199 INFO L133 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2018-11-23 11:07:05,200 INFO L133 SettingsManager]: * Use bitvectors instead of ints=true [2018-11-23 11:07:05,200 INFO L133 SettingsManager]: * Memory model=HoenickeLindenmann_4ByteResolution [2018-11-23 11:07:05,200 INFO L133 SettingsManager]: * sizeof long double=12 [2018-11-23 11:07:05,200 INFO L133 SettingsManager]: * Check if freed pointer was valid=false [2018-11-23 11:07:05,200 INFO L133 SettingsManager]: * Use constant arrays=true [2018-11-23 11:07:05,201 INFO L133 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2018-11-23 11:07:05,201 INFO L131 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2018-11-23 11:07:05,201 INFO L133 SettingsManager]: * Size of a code block=SequenceOfStatements [2018-11-23 11:07:05,201 INFO L133 SettingsManager]: * To the following directory=./dump/ [2018-11-23 11:07:05,201 INFO L133 SettingsManager]: * SMT solver=External_DefaultMode [2018-11-23 11:07:05,202 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2018-11-23 11:07:05,202 INFO L131 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2018-11-23 11:07:05,202 INFO L133 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2018-11-23 11:07:05,202 INFO L133 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles [2018-11-23 11:07:05,202 INFO L133 SettingsManager]: * Trace refinement strategy=WOLF [2018-11-23 11:07:05,202 INFO L133 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode [2018-11-23 11:07:05,203 INFO L133 SettingsManager]: * Command for external solver=cvc4nyu --tear-down-incremental --rewrite-divk --print-success --lang smt [2018-11-23 11:07:05,203 INFO L133 SettingsManager]: * Logic for external solver=AUFBV [2018-11-23 11:07:05,203 INFO L133 SettingsManager]: * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true [2018-11-23 11:07:05,263 INFO L81 nceAwareModelManager]: Repository-Root is: /tmp [2018-11-23 11:07:05,279 INFO L258 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2018-11-23 11:07:05,282 INFO L214 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2018-11-23 11:07:05,284 INFO L271 PluginConnector]: Initializing CDTParser... [2018-11-23 11:07:05,284 INFO L276 PluginConnector]: CDTParser initialized [2018-11-23 11:07:05,285 INFO L418 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/svcomp/ldv-regression/test25_false-unreach-call_true-termination.c [2018-11-23 11:07:05,345 INFO L221 CDTParser]: Created temporary CDT project at /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/data/665694380/eaf8c53afb3c4ad89381c32752a5c1e1/FLAGa7ca0eb88 [2018-11-23 11:07:05,855 INFO L307 CDTParser]: Found 1 translation units. [2018-11-23 11:07:05,856 INFO L161 CDTParser]: Scanning /storage/repos/ultimate/trunk/examples/svcomp/ldv-regression/test25_false-unreach-call_true-termination.c [2018-11-23 11:07:05,862 INFO L355 CDTParser]: About to delete temporary CDT project at /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/data/665694380/eaf8c53afb3c4ad89381c32752a5c1e1/FLAGa7ca0eb88 [2018-11-23 11:07:06,190 INFO L363 CDTParser]: Successfully deleted /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/data/665694380/eaf8c53afb3c4ad89381c32752a5c1e1 [2018-11-23 11:07:06,200 INFO L296 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2018-11-23 11:07:06,202 INFO L131 ToolchainWalker]: Walking toolchain with 6 elements. [2018-11-23 11:07:06,203 INFO L113 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2018-11-23 11:07:06,203 INFO L271 PluginConnector]: Initializing CACSL2BoogieTranslator... [2018-11-23 11:07:06,207 INFO L276 PluginConnector]: CACSL2BoogieTranslator initialized [2018-11-23 11:07:06,208 INFO L185 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,211 INFO L205 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@77cb4ace and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06, skipping insertion in model container [2018-11-23 11:07:06,212 INFO L185 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,222 INFO L145 MainTranslator]: Starting translation in SV-COMP mode [2018-11-23 11:07:06,252 INFO L176 MainTranslator]: Built tables and reachable declarations [2018-11-23 11:07:06,562 INFO L201 PostProcessor]: Analyzing one entry point: main [2018-11-23 11:07:06,582 INFO L191 MainTranslator]: Completed pre-run [2018-11-23 11:07:06,617 INFO L201 PostProcessor]: Analyzing one entry point: main [2018-11-23 11:07:06,642 INFO L195 MainTranslator]: Completed translation [2018-11-23 11:07:06,643 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06 WrapperNode [2018-11-23 11:07:06,643 INFO L132 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2018-11-23 11:07:06,644 INFO L113 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2018-11-23 11:07:06,644 INFO L271 PluginConnector]: Initializing Boogie Procedure Inliner... [2018-11-23 11:07:06,644 INFO L276 PluginConnector]: Boogie Procedure Inliner initialized [2018-11-23 11:07:06,654 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,666 INFO L185 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,674 INFO L132 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2018-11-23 11:07:06,674 INFO L113 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2018-11-23 11:07:06,674 INFO L271 PluginConnector]: Initializing Boogie Preprocessor... [2018-11-23 11:07:06,675 INFO L276 PluginConnector]: Boogie Preprocessor initialized [2018-11-23 11:07:06,682 INFO L185 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,683 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,686 INFO L185 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,686 INFO L185 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,704 INFO L185 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,713 INFO L185 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,715 INFO L185 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... [2018-11-23 11:07:06,718 INFO L132 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2018-11-23 11:07:06,723 INFO L113 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2018-11-23 11:07:06,724 INFO L271 PluginConnector]: Initializing RCFGBuilder... [2018-11-23 11:07:06,724 INFO L276 PluginConnector]: RCFGBuilder initialized [2018-11-23 11:07:06,725 INFO L185 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (1/1) ... No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 Starting monitored process 1 with z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 1 with z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2018-11-23 11:07:06,855 INFO L130 BoogieDeclarations]: Found specification of procedure read~$Pointer$ [2018-11-23 11:07:06,855 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.init [2018-11-23 11:07:06,855 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.init [2018-11-23 11:07:06,855 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.alloc [2018-11-23 11:07:06,855 INFO L130 BoogieDeclarations]: Found specification of procedure read~intINTTYPE4 [2018-11-23 11:07:06,855 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2018-11-23 11:07:06,856 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2018-11-23 11:07:06,856 INFO L130 BoogieDeclarations]: Found specification of procedure main [2018-11-23 11:07:06,856 INFO L138 BoogieDeclarations]: Found implementation of procedure main [2018-11-23 11:07:06,856 INFO L130 BoogieDeclarations]: Found specification of procedure check [2018-11-23 11:07:06,856 INFO L138 BoogieDeclarations]: Found implementation of procedure check [2018-11-23 11:07:06,856 INFO L130 BoogieDeclarations]: Found specification of procedure write~$Pointer$ [2018-11-23 11:07:06,857 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.dealloc [2018-11-23 11:07:06,857 INFO L130 BoogieDeclarations]: Found specification of procedure write~intINTTYPE4 [2018-11-23 11:07:07,580 INFO L275 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2018-11-23 11:07:07,581 INFO L280 CfgBuilder]: Removed 2 assue(true) statements. [2018-11-23 11:07:07,581 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 23.11 11:07:07 BoogieIcfgContainer [2018-11-23 11:07:07,581 INFO L132 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2018-11-23 11:07:07,582 INFO L113 PluginConnector]: ------------------------TraceAbstraction---------------------------- [2018-11-23 11:07:07,583 INFO L271 PluginConnector]: Initializing TraceAbstraction... [2018-11-23 11:07:07,586 INFO L276 PluginConnector]: TraceAbstraction initialized [2018-11-23 11:07:07,586 INFO L185 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "CDTParser AST 23.11 11:07:06" (1/3) ... [2018-11-23 11:07:07,587 INFO L205 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@33a61805 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 23.11 11:07:07, skipping insertion in model container [2018-11-23 11:07:07,588 INFO L185 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 11:07:06" (2/3) ... [2018-11-23 11:07:07,588 INFO L205 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@33a61805 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 23.11 11:07:07, skipping insertion in model container [2018-11-23 11:07:07,588 INFO L185 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 23.11 11:07:07" (3/3) ... [2018-11-23 11:07:07,590 INFO L112 eAbstractionObserver]: Analyzing ICFG test25_false-unreach-call_true-termination.c [2018-11-23 11:07:07,601 INFO L156 ceAbstractionStarter]: Automizer settings: Hoare:true NWA Interpolation:FPandBP Determinization: PREDICATE_ABSTRACTION [2018-11-23 11:07:07,611 INFO L168 ceAbstractionStarter]: Appying trace abstraction to program that has 1 error locations. [2018-11-23 11:07:07,630 INFO L257 AbstractCegarLoop]: Starting to check reachability of 1 error locations. [2018-11-23 11:07:07,664 INFO L133 ementStrategyFactory]: Using default assertion order modulation [2018-11-23 11:07:07,665 INFO L382 AbstractCegarLoop]: Interprodecural is true [2018-11-23 11:07:07,665 INFO L383 AbstractCegarLoop]: Hoare is true [2018-11-23 11:07:07,665 INFO L384 AbstractCegarLoop]: Compute interpolants for FPandBP [2018-11-23 11:07:07,666 INFO L385 AbstractCegarLoop]: Backedges is STRAIGHT_LINE [2018-11-23 11:07:07,666 INFO L386 AbstractCegarLoop]: Determinization is PREDICATE_ABSTRACTION [2018-11-23 11:07:07,666 INFO L387 AbstractCegarLoop]: Difference is false [2018-11-23 11:07:07,666 INFO L388 AbstractCegarLoop]: Minimize is MINIMIZE_SEVPA [2018-11-23 11:07:07,666 INFO L393 AbstractCegarLoop]: ======== Iteration 0==of CEGAR loop == AllErrorsAtOnce======== [2018-11-23 11:07:07,684 INFO L276 IsEmpty]: Start isEmpty. Operand 24 states. [2018-11-23 11:07:07,691 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 17 [2018-11-23 11:07:07,691 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:07,692 INFO L402 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:07,694 INFO L423 AbstractCegarLoop]: === Iteration 1 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:07,700 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:07,701 INFO L82 PathProgramCache]: Analyzing trace with hash 1170433446, now seen corresponding path program 1 times [2018-11-23 11:07:07,706 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:07,706 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 2 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 2 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:07,731 INFO L103 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2018-11-23 11:07:07,816 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:07,850 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:07,855 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:07,980 INFO L256 TraceCheckUtils]: 0: Hoare triple {27#true} call ULTIMATE.init(); {27#true} is VALID [2018-11-23 11:07:07,984 INFO L273 TraceCheckUtils]: 1: Hoare triple {27#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {27#true} is VALID [2018-11-23 11:07:07,984 INFO L273 TraceCheckUtils]: 2: Hoare triple {27#true} assume true; {27#true} is VALID [2018-11-23 11:07:07,985 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {27#true} {27#true} #57#return; {27#true} is VALID [2018-11-23 11:07:07,985 INFO L256 TraceCheckUtils]: 4: Hoare triple {27#true} call #t~ret13 := main(); {27#true} is VALID [2018-11-23 11:07:07,985 INFO L273 TraceCheckUtils]: 5: Hoare triple {27#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {27#true} is VALID [2018-11-23 11:07:07,986 INFO L273 TraceCheckUtils]: 6: Hoare triple {27#true} assume !true; {28#false} is VALID [2018-11-23 11:07:07,987 INFO L273 TraceCheckUtils]: 7: Hoare triple {28#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {28#false} is VALID [2018-11-23 11:07:07,987 INFO L273 TraceCheckUtils]: 8: Hoare triple {28#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {28#false} is VALID [2018-11-23 11:07:07,987 INFO L273 TraceCheckUtils]: 9: Hoare triple {28#false} assume !true; {28#false} is VALID [2018-11-23 11:07:07,988 INFO L256 TraceCheckUtils]: 10: Hoare triple {28#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {28#false} is VALID [2018-11-23 11:07:07,988 INFO L273 TraceCheckUtils]: 11: Hoare triple {28#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {28#false} is VALID [2018-11-23 11:07:07,988 INFO L273 TraceCheckUtils]: 12: Hoare triple {28#false} assume true; {28#false} is VALID [2018-11-23 11:07:07,989 INFO L268 TraceCheckUtils]: 13: Hoare quadruple {28#false} {28#false} #61#return; {28#false} is VALID [2018-11-23 11:07:07,989 INFO L273 TraceCheckUtils]: 14: Hoare triple {28#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {28#false} is VALID [2018-11-23 11:07:07,989 INFO L273 TraceCheckUtils]: 15: Hoare triple {28#false} assume !false; {28#false} is VALID [2018-11-23 11:07:07,993 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 11:07:07,993 INFO L312 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2018-11-23 11:07:08,000 INFO L312 seRefinementStrategy]: Constructing automaton from 1 perfect and 0 imperfect interpolant sequences. [2018-11-23 11:07:08,000 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2018-11-23 11:07:08,008 INFO L78 Accepts]: Start accepts. Automaton has 2 states. Word has length 16 [2018-11-23 11:07:08,011 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:08,015 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 2 states. [2018-11-23 11:07:08,203 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 16 edges. 16 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:08,204 INFO L459 AbstractCegarLoop]: Interpolant automaton has 2 states [2018-11-23 11:07:08,214 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 2 interpolants. [2018-11-23 11:07:08,215 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2018-11-23 11:07:08,218 INFO L87 Difference]: Start difference. First operand 24 states. Second operand 2 states. [2018-11-23 11:07:08,367 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:08,368 INFO L93 Difference]: Finished difference Result 40 states and 50 transitions. [2018-11-23 11:07:08,368 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 2 states. [2018-11-23 11:07:08,368 INFO L78 Accepts]: Start accepts. Automaton has 2 states. Word has length 16 [2018-11-23 11:07:08,368 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:08,370 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 2 states. [2018-11-23 11:07:08,384 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 2 states to 2 states and 50 transitions. [2018-11-23 11:07:08,385 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 2 states. [2018-11-23 11:07:08,389 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 2 states to 2 states and 50 transitions. [2018-11-23 11:07:08,389 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 2 states and 50 transitions. [2018-11-23 11:07:08,660 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 50 edges. 50 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:08,671 INFO L225 Difference]: With dead ends: 40 [2018-11-23 11:07:08,671 INFO L226 Difference]: Without dead ends: 19 [2018-11-23 11:07:08,675 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 15 GetRequests, 15 SyntacticMatches, 0 SemanticMatches, 0 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 0 ImplicationChecksByTransitivity, 0.0s TimeCoverageRelationStatistics Valid=1, Invalid=1, Unknown=0, NotChecked=0, Total=2 [2018-11-23 11:07:08,691 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 19 states. [2018-11-23 11:07:08,733 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 19 to 19. [2018-11-23 11:07:08,733 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:08,734 INFO L82 GeneralOperation]: Start isEquivalent. First operand 19 states. Second operand 19 states. [2018-11-23 11:07:08,735 INFO L74 IsIncluded]: Start isIncluded. First operand 19 states. Second operand 19 states. [2018-11-23 11:07:08,735 INFO L87 Difference]: Start difference. First operand 19 states. Second operand 19 states. [2018-11-23 11:07:08,739 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:08,739 INFO L93 Difference]: Finished difference Result 19 states and 20 transitions. [2018-11-23 11:07:08,740 INFO L276 IsEmpty]: Start isEmpty. Operand 19 states and 20 transitions. [2018-11-23 11:07:08,740 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:08,740 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:08,741 INFO L74 IsIncluded]: Start isIncluded. First operand 19 states. Second operand 19 states. [2018-11-23 11:07:08,741 INFO L87 Difference]: Start difference. First operand 19 states. Second operand 19 states. [2018-11-23 11:07:08,744 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:08,745 INFO L93 Difference]: Finished difference Result 19 states and 20 transitions. [2018-11-23 11:07:08,745 INFO L276 IsEmpty]: Start isEmpty. Operand 19 states and 20 transitions. [2018-11-23 11:07:08,745 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:08,746 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:08,746 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:08,746 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:08,746 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 19 states. [2018-11-23 11:07:08,749 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 19 states to 19 states and 20 transitions. [2018-11-23 11:07:08,750 INFO L78 Accepts]: Start accepts. Automaton has 19 states and 20 transitions. Word has length 16 [2018-11-23 11:07:08,751 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:08,751 INFO L480 AbstractCegarLoop]: Abstraction has 19 states and 20 transitions. [2018-11-23 11:07:08,751 INFO L481 AbstractCegarLoop]: Interpolant automaton has 2 states. [2018-11-23 11:07:08,751 INFO L276 IsEmpty]: Start isEmpty. Operand 19 states and 20 transitions. [2018-11-23 11:07:08,752 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 18 [2018-11-23 11:07:08,752 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:08,753 INFO L402 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:08,753 INFO L423 AbstractCegarLoop]: === Iteration 2 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:08,753 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:08,754 INFO L82 PathProgramCache]: Analyzing trace with hash 1596126575, now seen corresponding path program 1 times [2018-11-23 11:07:08,754 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:08,754 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 3 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 3 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:08,783 INFO L103 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2018-11-23 11:07:08,827 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:08,856 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:08,857 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:08,937 INFO L256 TraceCheckUtils]: 0: Hoare triple {195#true} call ULTIMATE.init(); {195#true} is VALID [2018-11-23 11:07:08,937 INFO L273 TraceCheckUtils]: 1: Hoare triple {195#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {195#true} is VALID [2018-11-23 11:07:08,938 INFO L273 TraceCheckUtils]: 2: Hoare triple {195#true} assume true; {195#true} is VALID [2018-11-23 11:07:08,938 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {195#true} {195#true} #57#return; {195#true} is VALID [2018-11-23 11:07:08,938 INFO L256 TraceCheckUtils]: 4: Hoare triple {195#true} call #t~ret13 := main(); {195#true} is VALID [2018-11-23 11:07:08,954 INFO L273 TraceCheckUtils]: 5: Hoare triple {195#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {215#(= main_~j~0 (_ bv0 32))} is VALID [2018-11-23 11:07:08,963 INFO L273 TraceCheckUtils]: 6: Hoare triple {215#(= main_~j~0 (_ bv0 32))} assume !~bvslt32(~j~0, 10bv32); {196#false} is VALID [2018-11-23 11:07:08,964 INFO L273 TraceCheckUtils]: 7: Hoare triple {196#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {196#false} is VALID [2018-11-23 11:07:08,964 INFO L273 TraceCheckUtils]: 8: Hoare triple {196#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {196#false} is VALID [2018-11-23 11:07:08,964 INFO L273 TraceCheckUtils]: 9: Hoare triple {196#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {196#false} is VALID [2018-11-23 11:07:08,965 INFO L273 TraceCheckUtils]: 10: Hoare triple {196#false} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {196#false} is VALID [2018-11-23 11:07:08,965 INFO L256 TraceCheckUtils]: 11: Hoare triple {196#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {196#false} is VALID [2018-11-23 11:07:08,965 INFO L273 TraceCheckUtils]: 12: Hoare triple {196#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {196#false} is VALID [2018-11-23 11:07:08,966 INFO L273 TraceCheckUtils]: 13: Hoare triple {196#false} assume true; {196#false} is VALID [2018-11-23 11:07:08,966 INFO L268 TraceCheckUtils]: 14: Hoare quadruple {196#false} {196#false} #61#return; {196#false} is VALID [2018-11-23 11:07:08,966 INFO L273 TraceCheckUtils]: 15: Hoare triple {196#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {196#false} is VALID [2018-11-23 11:07:08,967 INFO L273 TraceCheckUtils]: 16: Hoare triple {196#false} assume !false; {196#false} is VALID [2018-11-23 11:07:08,968 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 11:07:08,969 INFO L312 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2018-11-23 11:07:08,973 INFO L312 seRefinementStrategy]: Constructing automaton from 1 perfect and 0 imperfect interpolant sequences. [2018-11-23 11:07:08,973 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [3] imperfect sequences [] total 3 [2018-11-23 11:07:08,976 INFO L78 Accepts]: Start accepts. Automaton has 3 states. Word has length 17 [2018-11-23 11:07:08,976 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:08,976 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 3 states. [2018-11-23 11:07:09,177 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 17 edges. 17 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:09,177 INFO L459 AbstractCegarLoop]: Interpolant automaton has 3 states [2018-11-23 11:07:09,178 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 3 interpolants. [2018-11-23 11:07:09,178 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2018-11-23 11:07:09,178 INFO L87 Difference]: Start difference. First operand 19 states and 20 transitions. Second operand 3 states. [2018-11-23 11:07:09,630 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:09,631 INFO L93 Difference]: Finished difference Result 32 states and 34 transitions. [2018-11-23 11:07:09,631 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 3 states. [2018-11-23 11:07:09,631 INFO L78 Accepts]: Start accepts. Automaton has 3 states. Word has length 17 [2018-11-23 11:07:09,631 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:09,632 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 3 states. [2018-11-23 11:07:09,634 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 3 states to 3 states and 34 transitions. [2018-11-23 11:07:09,634 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 3 states. [2018-11-23 11:07:09,637 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 3 states to 3 states and 34 transitions. [2018-11-23 11:07:09,637 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 3 states and 34 transitions. [2018-11-23 11:07:09,803 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 34 edges. 34 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:09,806 INFO L225 Difference]: With dead ends: 32 [2018-11-23 11:07:09,807 INFO L226 Difference]: Without dead ends: 21 [2018-11-23 11:07:09,808 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 16 GetRequests, 15 SyntacticMatches, 0 SemanticMatches, 1 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 0 ImplicationChecksByTransitivity, 0.0s TimeCoverageRelationStatistics Valid=3, Invalid=3, Unknown=0, NotChecked=0, Total=6 [2018-11-23 11:07:09,808 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 21 states. [2018-11-23 11:07:09,821 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 21 to 20. [2018-11-23 11:07:09,821 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:09,821 INFO L82 GeneralOperation]: Start isEquivalent. First operand 21 states. Second operand 20 states. [2018-11-23 11:07:09,822 INFO L74 IsIncluded]: Start isIncluded. First operand 21 states. Second operand 20 states. [2018-11-23 11:07:09,822 INFO L87 Difference]: Start difference. First operand 21 states. Second operand 20 states. [2018-11-23 11:07:09,824 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:09,825 INFO L93 Difference]: Finished difference Result 21 states and 22 transitions. [2018-11-23 11:07:09,825 INFO L276 IsEmpty]: Start isEmpty. Operand 21 states and 22 transitions. [2018-11-23 11:07:09,825 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:09,826 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:09,826 INFO L74 IsIncluded]: Start isIncluded. First operand 20 states. Second operand 21 states. [2018-11-23 11:07:09,826 INFO L87 Difference]: Start difference. First operand 20 states. Second operand 21 states. [2018-11-23 11:07:09,828 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:09,828 INFO L93 Difference]: Finished difference Result 21 states and 22 transitions. [2018-11-23 11:07:09,828 INFO L276 IsEmpty]: Start isEmpty. Operand 21 states and 22 transitions. [2018-11-23 11:07:09,829 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:09,829 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:09,829 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:09,830 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:09,830 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 20 states. [2018-11-23 11:07:09,831 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 20 states to 20 states and 21 transitions. [2018-11-23 11:07:09,832 INFO L78 Accepts]: Start accepts. Automaton has 20 states and 21 transitions. Word has length 17 [2018-11-23 11:07:09,832 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:09,832 INFO L480 AbstractCegarLoop]: Abstraction has 20 states and 21 transitions. [2018-11-23 11:07:09,832 INFO L481 AbstractCegarLoop]: Interpolant automaton has 3 states. [2018-11-23 11:07:09,832 INFO L276 IsEmpty]: Start isEmpty. Operand 20 states and 21 transitions. [2018-11-23 11:07:09,834 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 20 [2018-11-23 11:07:09,834 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:09,834 INFO L402 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:09,835 INFO L423 AbstractCegarLoop]: === Iteration 3 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:09,835 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:09,835 INFO L82 PathProgramCache]: Analyzing trace with hash -450230899, now seen corresponding path program 1 times [2018-11-23 11:07:09,836 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:09,836 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 4 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 4 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:09,852 INFO L103 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2018-11-23 11:07:09,903 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:09,924 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:09,925 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:10,012 INFO L256 TraceCheckUtils]: 0: Hoare triple {366#true} call ULTIMATE.init(); {366#true} is VALID [2018-11-23 11:07:10,012 INFO L273 TraceCheckUtils]: 1: Hoare triple {366#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {366#true} is VALID [2018-11-23 11:07:10,013 INFO L273 TraceCheckUtils]: 2: Hoare triple {366#true} assume true; {366#true} is VALID [2018-11-23 11:07:10,013 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {366#true} {366#true} #57#return; {366#true} is VALID [2018-11-23 11:07:10,013 INFO L256 TraceCheckUtils]: 4: Hoare triple {366#true} call #t~ret13 := main(); {366#true} is VALID [2018-11-23 11:07:10,014 INFO L273 TraceCheckUtils]: 5: Hoare triple {366#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {386#(= main_~j~0 (_ bv0 32))} is VALID [2018-11-23 11:07:10,015 INFO L273 TraceCheckUtils]: 6: Hoare triple {386#(= main_~j~0 (_ bv0 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {386#(= main_~j~0 (_ bv0 32))} is VALID [2018-11-23 11:07:10,015 INFO L273 TraceCheckUtils]: 7: Hoare triple {386#(= main_~j~0 (_ bv0 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {393#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:10,026 INFO L273 TraceCheckUtils]: 8: Hoare triple {393#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} assume !~bvslt32(~j~0, 10bv32); {367#false} is VALID [2018-11-23 11:07:10,027 INFO L273 TraceCheckUtils]: 9: Hoare triple {367#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {367#false} is VALID [2018-11-23 11:07:10,027 INFO L273 TraceCheckUtils]: 10: Hoare triple {367#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {367#false} is VALID [2018-11-23 11:07:10,027 INFO L273 TraceCheckUtils]: 11: Hoare triple {367#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {367#false} is VALID [2018-11-23 11:07:10,028 INFO L273 TraceCheckUtils]: 12: Hoare triple {367#false} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {367#false} is VALID [2018-11-23 11:07:10,028 INFO L256 TraceCheckUtils]: 13: Hoare triple {367#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {367#false} is VALID [2018-11-23 11:07:10,028 INFO L273 TraceCheckUtils]: 14: Hoare triple {367#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {367#false} is VALID [2018-11-23 11:07:10,029 INFO L273 TraceCheckUtils]: 15: Hoare triple {367#false} assume true; {367#false} is VALID [2018-11-23 11:07:10,029 INFO L268 TraceCheckUtils]: 16: Hoare quadruple {367#false} {367#false} #61#return; {367#false} is VALID [2018-11-23 11:07:10,029 INFO L273 TraceCheckUtils]: 17: Hoare triple {367#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {367#false} is VALID [2018-11-23 11:07:10,030 INFO L273 TraceCheckUtils]: 18: Hoare triple {367#false} assume !false; {367#false} is VALID [2018-11-23 11:07:10,031 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 11:07:10,032 INFO L316 TraceCheckSpWp]: Computing backward predicates... [2018-11-23 11:07:10,232 INFO L273 TraceCheckUtils]: 18: Hoare triple {367#false} assume !false; {367#false} is VALID [2018-11-23 11:07:10,233 INFO L273 TraceCheckUtils]: 17: Hoare triple {367#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {367#false} is VALID [2018-11-23 11:07:10,233 INFO L268 TraceCheckUtils]: 16: Hoare quadruple {366#true} {367#false} #61#return; {367#false} is VALID [2018-11-23 11:07:10,234 INFO L273 TraceCheckUtils]: 15: Hoare triple {366#true} assume true; {366#true} is VALID [2018-11-23 11:07:10,234 INFO L273 TraceCheckUtils]: 14: Hoare triple {366#true} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {366#true} is VALID [2018-11-23 11:07:10,234 INFO L256 TraceCheckUtils]: 13: Hoare triple {367#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {366#true} is VALID [2018-11-23 11:07:10,234 INFO L273 TraceCheckUtils]: 12: Hoare triple {367#false} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {367#false} is VALID [2018-11-23 11:07:10,235 INFO L273 TraceCheckUtils]: 11: Hoare triple {367#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {367#false} is VALID [2018-11-23 11:07:10,235 INFO L273 TraceCheckUtils]: 10: Hoare triple {367#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {367#false} is VALID [2018-11-23 11:07:10,235 INFO L273 TraceCheckUtils]: 9: Hoare triple {367#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {367#false} is VALID [2018-11-23 11:07:10,237 INFO L273 TraceCheckUtils]: 8: Hoare triple {457#(bvslt main_~j~0 (_ bv10 32))} assume !~bvslt32(~j~0, 10bv32); {367#false} is VALID [2018-11-23 11:07:10,239 INFO L273 TraceCheckUtils]: 7: Hoare triple {461#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {457#(bvslt main_~j~0 (_ bv10 32))} is VALID [2018-11-23 11:07:10,258 INFO L273 TraceCheckUtils]: 6: Hoare triple {461#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {461#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:10,267 INFO L273 TraceCheckUtils]: 5: Hoare triple {366#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {461#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:10,268 INFO L256 TraceCheckUtils]: 4: Hoare triple {366#true} call #t~ret13 := main(); {366#true} is VALID [2018-11-23 11:07:10,268 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {366#true} {366#true} #57#return; {366#true} is VALID [2018-11-23 11:07:10,269 INFO L273 TraceCheckUtils]: 2: Hoare triple {366#true} assume true; {366#true} is VALID [2018-11-23 11:07:10,269 INFO L273 TraceCheckUtils]: 1: Hoare triple {366#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {366#true} is VALID [2018-11-23 11:07:10,269 INFO L256 TraceCheckUtils]: 0: Hoare triple {366#true} call ULTIMATE.init(); {366#true} is VALID [2018-11-23 11:07:10,270 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 11:07:10,276 INFO L312 seRefinementStrategy]: Constructing automaton from 0 perfect and 2 imperfect interpolant sequences. [2018-11-23 11:07:10,277 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [] imperfect sequences [4, 4] total 6 [2018-11-23 11:07:10,277 INFO L78 Accepts]: Start accepts. Automaton has 6 states. Word has length 19 [2018-11-23 11:07:10,278 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:10,278 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 6 states. [2018-11-23 11:07:10,380 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 27 edges. 27 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:10,381 INFO L459 AbstractCegarLoop]: Interpolant automaton has 6 states [2018-11-23 11:07:10,381 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2018-11-23 11:07:10,381 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=13, Invalid=17, Unknown=0, NotChecked=0, Total=30 [2018-11-23 11:07:10,382 INFO L87 Difference]: Start difference. First operand 20 states and 21 transitions. Second operand 6 states. [2018-11-23 11:07:11,018 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:11,019 INFO L93 Difference]: Finished difference Result 37 states and 41 transitions. [2018-11-23 11:07:11,019 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2018-11-23 11:07:11,019 INFO L78 Accepts]: Start accepts. Automaton has 6 states. Word has length 19 [2018-11-23 11:07:11,019 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:11,019 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 6 states. [2018-11-23 11:07:11,022 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 6 states to 6 states and 41 transitions. [2018-11-23 11:07:11,022 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 6 states. [2018-11-23 11:07:11,025 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 6 states to 6 states and 41 transitions. [2018-11-23 11:07:11,025 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 6 states and 41 transitions. [2018-11-23 11:07:11,118 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 41 edges. 41 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:11,120 INFO L225 Difference]: With dead ends: 37 [2018-11-23 11:07:11,120 INFO L226 Difference]: Without dead ends: 26 [2018-11-23 11:07:11,122 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 38 GetRequests, 33 SyntacticMatches, 0 SemanticMatches, 5 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 0 ImplicationChecksByTransitivity, 0.0s TimeCoverageRelationStatistics Valid=19, Invalid=23, Unknown=0, NotChecked=0, Total=42 [2018-11-23 11:07:11,123 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 26 states. [2018-11-23 11:07:11,132 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 26 to 26. [2018-11-23 11:07:11,133 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:11,133 INFO L82 GeneralOperation]: Start isEquivalent. First operand 26 states. Second operand 26 states. [2018-11-23 11:07:11,133 INFO L74 IsIncluded]: Start isIncluded. First operand 26 states. Second operand 26 states. [2018-11-23 11:07:11,133 INFO L87 Difference]: Start difference. First operand 26 states. Second operand 26 states. [2018-11-23 11:07:11,136 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:11,137 INFO L93 Difference]: Finished difference Result 26 states and 27 transitions. [2018-11-23 11:07:11,137 INFO L276 IsEmpty]: Start isEmpty. Operand 26 states and 27 transitions. [2018-11-23 11:07:11,137 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:11,138 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:11,138 INFO L74 IsIncluded]: Start isIncluded. First operand 26 states. Second operand 26 states. [2018-11-23 11:07:11,138 INFO L87 Difference]: Start difference. First operand 26 states. Second operand 26 states. [2018-11-23 11:07:11,140 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:11,141 INFO L93 Difference]: Finished difference Result 26 states and 27 transitions. [2018-11-23 11:07:11,141 INFO L276 IsEmpty]: Start isEmpty. Operand 26 states and 27 transitions. [2018-11-23 11:07:11,141 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:11,142 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:11,142 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:11,142 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:11,142 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 26 states. [2018-11-23 11:07:11,143 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 26 states to 26 states and 27 transitions. [2018-11-23 11:07:11,144 INFO L78 Accepts]: Start accepts. Automaton has 26 states and 27 transitions. Word has length 19 [2018-11-23 11:07:11,144 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:11,144 INFO L480 AbstractCegarLoop]: Abstraction has 26 states and 27 transitions. [2018-11-23 11:07:11,144 INFO L481 AbstractCegarLoop]: Interpolant automaton has 6 states. [2018-11-23 11:07:11,144 INFO L276 IsEmpty]: Start isEmpty. Operand 26 states and 27 transitions. [2018-11-23 11:07:11,145 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 26 [2018-11-23 11:07:11,145 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:11,146 INFO L402 BasicCegarLoop]: trace histogram [4, 4, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:11,146 INFO L423 AbstractCegarLoop]: === Iteration 4 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:11,146 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:11,146 INFO L82 PathProgramCache]: Analyzing trace with hash 1321818343, now seen corresponding path program 2 times [2018-11-23 11:07:11,147 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:11,147 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 5 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 5 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:11,164 INFO L101 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST1 [2018-11-23 11:07:11,232 INFO L249 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST1 issued 1 check-sat command(s) [2018-11-23 11:07:11,233 INFO L250 tOrderPrioritization]: Conjunction of SSA is unsat [2018-11-23 11:07:11,286 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:11,288 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:11,860 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 30 [2018-11-23 11:07:11,894 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 0 new quantified variables, introduced 0 case distinctions, treesize of input 30 treesize of output 9 [2018-11-23 11:07:11,902 INFO L267 ElimStorePlain]: Start of recursive call 3: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:11,912 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:11,932 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:11,932 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:42, output treesize:9 [2018-11-23 11:07:11,951 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:11,951 WARN L384 uantifierElimination]: Input elimination task: ∃ [|#memory_int|, main_~pa~0.base, v_main_~i~0_14]. (let ((.cse0 (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32))))) (and (bvsgt .cse0 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv10 32)) .cse0) (bvslt v_main_~i~0_14 (_ bv9 32)) (bvsge v_main_~i~0_14 (_ bv0 32)) (= |main_#t~mem10| .cse0))) [2018-11-23 11:07:11,951 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (bvsgt |main_#t~mem10| (_ bv0 32)) (= |main_#t~mem10| (bvadd main_~i~0 (_ bv10 32)))) [2018-11-23 11:07:12,031 INFO L256 TraceCheckUtils]: 0: Hoare triple {632#true} call ULTIMATE.init(); {632#true} is VALID [2018-11-23 11:07:12,032 INFO L273 TraceCheckUtils]: 1: Hoare triple {632#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {632#true} is VALID [2018-11-23 11:07:12,033 INFO L273 TraceCheckUtils]: 2: Hoare triple {632#true} assume true; {632#true} is VALID [2018-11-23 11:07:12,033 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {632#true} {632#true} #57#return; {632#true} is VALID [2018-11-23 11:07:12,034 INFO L256 TraceCheckUtils]: 4: Hoare triple {632#true} call #t~ret13 := main(); {632#true} is VALID [2018-11-23 11:07:12,038 INFO L273 TraceCheckUtils]: 5: Hoare triple {632#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,039 INFO L273 TraceCheckUtils]: 6: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,039 INFO L273 TraceCheckUtils]: 7: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,040 INFO L273 TraceCheckUtils]: 8: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,040 INFO L273 TraceCheckUtils]: 9: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,041 INFO L273 TraceCheckUtils]: 10: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,042 INFO L273 TraceCheckUtils]: 11: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,043 INFO L273 TraceCheckUtils]: 12: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,043 INFO L273 TraceCheckUtils]: 13: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,044 INFO L273 TraceCheckUtils]: 14: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume !~bvslt32(~j~0, 10bv32); {652#(= (_ bv0 32) |main_~#array~0.offset|)} is VALID [2018-11-23 11:07:12,052 INFO L273 TraceCheckUtils]: 15: Hoare triple {652#(= (_ bv0 32) |main_~#array~0.offset|)} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {683#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} is VALID [2018-11-23 11:07:12,206 INFO L273 TraceCheckUtils]: 16: Hoare triple {683#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {687#(exists ((v_main_~i~0_14 (_ BitVec 32))) (and (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv10 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32)))) (bvslt v_main_~i~0_14 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32)) main_~pa~0.offset) (bvsge v_main_~i~0_14 (_ bv0 32))))} is VALID [2018-11-23 11:07:12,259 INFO L273 TraceCheckUtils]: 17: Hoare triple {687#(exists ((v_main_~i~0_14 (_ BitVec 32))) (and (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv10 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32)))) (bvslt v_main_~i~0_14 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_14) (_ bv4 32)) main_~pa~0.offset) (bvsge v_main_~i~0_14 (_ bv0 32))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {691#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd |main_#t~mem10| (_ bv4294967286 32)) main_~i~0))} is VALID [2018-11-23 11:07:12,265 INFO L273 TraceCheckUtils]: 18: Hoare triple {691#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd |main_#t~mem10| (_ bv4294967286 32)) main_~i~0))} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {633#false} is VALID [2018-11-23 11:07:12,266 INFO L256 TraceCheckUtils]: 19: Hoare triple {633#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {633#false} is VALID [2018-11-23 11:07:12,266 INFO L273 TraceCheckUtils]: 20: Hoare triple {633#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {633#false} is VALID [2018-11-23 11:07:12,266 INFO L273 TraceCheckUtils]: 21: Hoare triple {633#false} assume true; {633#false} is VALID [2018-11-23 11:07:12,267 INFO L268 TraceCheckUtils]: 22: Hoare quadruple {633#false} {633#false} #61#return; {633#false} is VALID [2018-11-23 11:07:12,267 INFO L273 TraceCheckUtils]: 23: Hoare triple {633#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {633#false} is VALID [2018-11-23 11:07:12,267 INFO L273 TraceCheckUtils]: 24: Hoare triple {633#false} assume !false; {633#false} is VALID [2018-11-23 11:07:12,269 INFO L134 CoverageAnalysis]: Checked inductivity of 16 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 16 trivial. 0 not checked. [2018-11-23 11:07:12,270 INFO L312 TraceCheckSpWp]: Omiting computation of backward sequence because forward sequence was already perfect [2018-11-23 11:07:12,271 INFO L312 seRefinementStrategy]: Constructing automaton from 1 perfect and 0 imperfect interpolant sequences. [2018-11-23 11:07:12,271 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [6] imperfect sequences [] total 6 [2018-11-23 11:07:12,272 INFO L78 Accepts]: Start accepts. Automaton has 6 states. Word has length 25 [2018-11-23 11:07:12,272 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:12,272 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 6 states. [2018-11-23 11:07:12,567 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 19 edges. 19 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:12,567 INFO L459 AbstractCegarLoop]: Interpolant automaton has 6 states [2018-11-23 11:07:12,568 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 6 interpolants. [2018-11-23 11:07:12,568 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=10, Invalid=20, Unknown=0, NotChecked=0, Total=30 [2018-11-23 11:07:12,568 INFO L87 Difference]: Start difference. First operand 26 states and 27 transitions. Second operand 6 states. [2018-11-23 11:07:13,355 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:13,355 INFO L93 Difference]: Finished difference Result 35 states and 36 transitions. [2018-11-23 11:07:13,355 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2018-11-23 11:07:13,355 INFO L78 Accepts]: Start accepts. Automaton has 6 states. Word has length 25 [2018-11-23 11:07:13,356 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:13,356 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 6 states. [2018-11-23 11:07:13,361 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 6 states to 6 states and 29 transitions. [2018-11-23 11:07:13,361 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 6 states. [2018-11-23 11:07:13,363 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 6 states to 6 states and 29 transitions. [2018-11-23 11:07:13,364 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 6 states and 29 transitions. [2018-11-23 11:07:13,547 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 29 edges. 29 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:13,549 INFO L225 Difference]: With dead ends: 35 [2018-11-23 11:07:13,550 INFO L226 Difference]: Without dead ends: 28 [2018-11-23 11:07:13,550 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 26 GetRequests, 20 SyntacticMatches, 0 SemanticMatches, 6 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 2 ImplicationChecksByTransitivity, 0.4s TimeCoverageRelationStatistics Valid=20, Invalid=36, Unknown=0, NotChecked=0, Total=56 [2018-11-23 11:07:13,550 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 28 states. [2018-11-23 11:07:13,571 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 28 to 28. [2018-11-23 11:07:13,571 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:13,571 INFO L82 GeneralOperation]: Start isEquivalent. First operand 28 states. Second operand 28 states. [2018-11-23 11:07:13,571 INFO L74 IsIncluded]: Start isIncluded. First operand 28 states. Second operand 28 states. [2018-11-23 11:07:13,572 INFO L87 Difference]: Start difference. First operand 28 states. Second operand 28 states. [2018-11-23 11:07:13,574 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:13,574 INFO L93 Difference]: Finished difference Result 28 states and 29 transitions. [2018-11-23 11:07:13,574 INFO L276 IsEmpty]: Start isEmpty. Operand 28 states and 29 transitions. [2018-11-23 11:07:13,575 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:13,575 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:13,575 INFO L74 IsIncluded]: Start isIncluded. First operand 28 states. Second operand 28 states. [2018-11-23 11:07:13,575 INFO L87 Difference]: Start difference. First operand 28 states. Second operand 28 states. [2018-11-23 11:07:13,577 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:13,578 INFO L93 Difference]: Finished difference Result 28 states and 29 transitions. [2018-11-23 11:07:13,578 INFO L276 IsEmpty]: Start isEmpty. Operand 28 states and 29 transitions. [2018-11-23 11:07:13,578 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:13,579 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:13,579 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:13,579 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:13,579 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 28 states. [2018-11-23 11:07:13,581 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 28 states to 28 states and 29 transitions. [2018-11-23 11:07:13,581 INFO L78 Accepts]: Start accepts. Automaton has 28 states and 29 transitions. Word has length 25 [2018-11-23 11:07:13,581 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:13,582 INFO L480 AbstractCegarLoop]: Abstraction has 28 states and 29 transitions. [2018-11-23 11:07:13,582 INFO L481 AbstractCegarLoop]: Interpolant automaton has 6 states. [2018-11-23 11:07:13,582 INFO L276 IsEmpty]: Start isEmpty. Operand 28 states and 29 transitions. [2018-11-23 11:07:13,583 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 28 [2018-11-23 11:07:13,583 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:13,583 INFO L402 BasicCegarLoop]: trace histogram [4, 4, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:13,583 INFO L423 AbstractCegarLoop]: === Iteration 5 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:13,584 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:13,584 INFO L82 PathProgramCache]: Analyzing trace with hash -763481844, now seen corresponding path program 1 times [2018-11-23 11:07:13,584 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:13,584 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 6 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 6 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:13,605 INFO L101 rtionOrderModulation]: Changing assertion order to NOT_INCREMENTALLY [2018-11-23 11:07:13,674 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:13,696 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:13,697 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:13,812 INFO L256 TraceCheckUtils]: 0: Hoare triple {866#true} call ULTIMATE.init(); {866#true} is VALID [2018-11-23 11:07:13,813 INFO L273 TraceCheckUtils]: 1: Hoare triple {866#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {866#true} is VALID [2018-11-23 11:07:13,813 INFO L273 TraceCheckUtils]: 2: Hoare triple {866#true} assume true; {866#true} is VALID [2018-11-23 11:07:13,814 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {866#true} {866#true} #57#return; {866#true} is VALID [2018-11-23 11:07:13,814 INFO L256 TraceCheckUtils]: 4: Hoare triple {866#true} call #t~ret13 := main(); {866#true} is VALID [2018-11-23 11:07:13,814 INFO L273 TraceCheckUtils]: 5: Hoare triple {866#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {886#(= main_~j~0 (_ bv0 32))} is VALID [2018-11-23 11:07:13,815 INFO L273 TraceCheckUtils]: 6: Hoare triple {886#(= main_~j~0 (_ bv0 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {886#(= main_~j~0 (_ bv0 32))} is VALID [2018-11-23 11:07:13,816 INFO L273 TraceCheckUtils]: 7: Hoare triple {886#(= main_~j~0 (_ bv0 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {893#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,822 INFO L273 TraceCheckUtils]: 8: Hoare triple {893#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {893#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,824 INFO L273 TraceCheckUtils]: 9: Hoare triple {893#(= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {900#(= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,824 INFO L273 TraceCheckUtils]: 10: Hoare triple {900#(= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {900#(= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,825 INFO L273 TraceCheckUtils]: 11: Hoare triple {900#(= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {907#(= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,826 INFO L273 TraceCheckUtils]: 12: Hoare triple {907#(= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {907#(= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,826 INFO L273 TraceCheckUtils]: 13: Hoare triple {907#(= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {914#(= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32))} is VALID [2018-11-23 11:07:13,827 INFO L273 TraceCheckUtils]: 14: Hoare triple {914#(= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32))} assume !~bvslt32(~j~0, 10bv32); {867#false} is VALID [2018-11-23 11:07:13,827 INFO L273 TraceCheckUtils]: 15: Hoare triple {867#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {867#false} is VALID [2018-11-23 11:07:13,827 INFO L273 TraceCheckUtils]: 16: Hoare triple {867#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {867#false} is VALID [2018-11-23 11:07:13,827 INFO L273 TraceCheckUtils]: 17: Hoare triple {867#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {867#false} is VALID [2018-11-23 11:07:13,828 INFO L273 TraceCheckUtils]: 18: Hoare triple {867#false} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {867#false} is VALID [2018-11-23 11:07:13,828 INFO L273 TraceCheckUtils]: 19: Hoare triple {867#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {867#false} is VALID [2018-11-23 11:07:13,828 INFO L273 TraceCheckUtils]: 20: Hoare triple {867#false} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {867#false} is VALID [2018-11-23 11:07:13,829 INFO L256 TraceCheckUtils]: 21: Hoare triple {867#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {867#false} is VALID [2018-11-23 11:07:13,829 INFO L273 TraceCheckUtils]: 22: Hoare triple {867#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {867#false} is VALID [2018-11-23 11:07:13,830 INFO L273 TraceCheckUtils]: 23: Hoare triple {867#false} assume true; {867#false} is VALID [2018-11-23 11:07:13,830 INFO L268 TraceCheckUtils]: 24: Hoare quadruple {867#false} {867#false} #61#return; {867#false} is VALID [2018-11-23 11:07:13,831 INFO L273 TraceCheckUtils]: 25: Hoare triple {867#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {867#false} is VALID [2018-11-23 11:07:13,831 INFO L273 TraceCheckUtils]: 26: Hoare triple {867#false} assume !false; {867#false} is VALID [2018-11-23 11:07:13,833 INFO L134 CoverageAnalysis]: Checked inductivity of 18 backedges. 0 proven. 16 refuted. 0 times theorem prover too weak. 2 trivial. 0 not checked. [2018-11-23 11:07:13,833 INFO L316 TraceCheckSpWp]: Computing backward predicates... [2018-11-23 11:07:14,126 INFO L273 TraceCheckUtils]: 26: Hoare triple {867#false} assume !false; {867#false} is VALID [2018-11-23 11:07:14,127 INFO L273 TraceCheckUtils]: 25: Hoare triple {867#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {867#false} is VALID [2018-11-23 11:07:14,128 INFO L268 TraceCheckUtils]: 24: Hoare quadruple {866#true} {867#false} #61#return; {867#false} is VALID [2018-11-23 11:07:14,128 INFO L273 TraceCheckUtils]: 23: Hoare triple {866#true} assume true; {866#true} is VALID [2018-11-23 11:07:14,129 INFO L273 TraceCheckUtils]: 22: Hoare triple {866#true} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {866#true} is VALID [2018-11-23 11:07:14,129 INFO L256 TraceCheckUtils]: 21: Hoare triple {867#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {866#true} is VALID [2018-11-23 11:07:14,129 INFO L273 TraceCheckUtils]: 20: Hoare triple {867#false} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {867#false} is VALID [2018-11-23 11:07:14,129 INFO L273 TraceCheckUtils]: 19: Hoare triple {867#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {867#false} is VALID [2018-11-23 11:07:14,129 INFO L273 TraceCheckUtils]: 18: Hoare triple {867#false} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {867#false} is VALID [2018-11-23 11:07:14,130 INFO L273 TraceCheckUtils]: 17: Hoare triple {867#false} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {867#false} is VALID [2018-11-23 11:07:14,130 INFO L273 TraceCheckUtils]: 16: Hoare triple {867#false} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {867#false} is VALID [2018-11-23 11:07:14,130 INFO L273 TraceCheckUtils]: 15: Hoare triple {867#false} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {867#false} is VALID [2018-11-23 11:07:14,133 INFO L273 TraceCheckUtils]: 14: Hoare triple {990#(bvslt main_~j~0 (_ bv10 32))} assume !~bvslt32(~j~0, 10bv32); {867#false} is VALID [2018-11-23 11:07:14,135 INFO L273 TraceCheckUtils]: 13: Hoare triple {994#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {990#(bvslt main_~j~0 (_ bv10 32))} is VALID [2018-11-23 11:07:14,135 INFO L273 TraceCheckUtils]: 12: Hoare triple {994#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {994#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,140 INFO L273 TraceCheckUtils]: 11: Hoare triple {1001#(bvslt (bvadd main_~j~0 (_ bv2 32)) (_ bv10 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {994#(bvslt (bvadd main_~j~0 (_ bv1 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,141 INFO L273 TraceCheckUtils]: 10: Hoare triple {1001#(bvslt (bvadd main_~j~0 (_ bv2 32)) (_ bv10 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1001#(bvslt (bvadd main_~j~0 (_ bv2 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,145 INFO L273 TraceCheckUtils]: 9: Hoare triple {1008#(bvslt (bvadd main_~j~0 (_ bv3 32)) (_ bv10 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1001#(bvslt (bvadd main_~j~0 (_ bv2 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,145 INFO L273 TraceCheckUtils]: 8: Hoare triple {1008#(bvslt (bvadd main_~j~0 (_ bv3 32)) (_ bv10 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1008#(bvslt (bvadd main_~j~0 (_ bv3 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,150 INFO L273 TraceCheckUtils]: 7: Hoare triple {1015#(bvslt (bvadd main_~j~0 (_ bv4 32)) (_ bv10 32))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1008#(bvslt (bvadd main_~j~0 (_ bv3 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,151 INFO L273 TraceCheckUtils]: 6: Hoare triple {1015#(bvslt (bvadd main_~j~0 (_ bv4 32)) (_ bv10 32))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1015#(bvslt (bvadd main_~j~0 (_ bv4 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,152 INFO L273 TraceCheckUtils]: 5: Hoare triple {866#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {1015#(bvslt (bvadd main_~j~0 (_ bv4 32)) (_ bv10 32))} is VALID [2018-11-23 11:07:14,152 INFO L256 TraceCheckUtils]: 4: Hoare triple {866#true} call #t~ret13 := main(); {866#true} is VALID [2018-11-23 11:07:14,152 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {866#true} {866#true} #57#return; {866#true} is VALID [2018-11-23 11:07:14,152 INFO L273 TraceCheckUtils]: 2: Hoare triple {866#true} assume true; {866#true} is VALID [2018-11-23 11:07:14,153 INFO L273 TraceCheckUtils]: 1: Hoare triple {866#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {866#true} is VALID [2018-11-23 11:07:14,153 INFO L256 TraceCheckUtils]: 0: Hoare triple {866#true} call ULTIMATE.init(); {866#true} is VALID [2018-11-23 11:07:14,156 INFO L134 CoverageAnalysis]: Checked inductivity of 18 backedges. 0 proven. 16 refuted. 0 times theorem prover too weak. 2 trivial. 0 not checked. [2018-11-23 11:07:14,162 INFO L312 seRefinementStrategy]: Constructing automaton from 0 perfect and 2 imperfect interpolant sequences. [2018-11-23 11:07:14,163 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [] imperfect sequences [7, 7] total 12 [2018-11-23 11:07:14,163 INFO L78 Accepts]: Start accepts. Automaton has 12 states. Word has length 27 [2018-11-23 11:07:14,164 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:14,164 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 12 states. [2018-11-23 11:07:14,274 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 40 edges. 40 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:14,274 INFO L459 AbstractCegarLoop]: Interpolant automaton has 12 states [2018-11-23 11:07:14,275 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 12 interpolants. [2018-11-23 11:07:14,275 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=46, Invalid=86, Unknown=0, NotChecked=0, Total=132 [2018-11-23 11:07:14,275 INFO L87 Difference]: Start difference. First operand 28 states and 29 transitions. Second operand 12 states. [2018-11-23 11:07:16,355 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:16,355 INFO L93 Difference]: Finished difference Result 53 states and 60 transitions. [2018-11-23 11:07:16,355 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 12 states. [2018-11-23 11:07:16,356 INFO L78 Accepts]: Start accepts. Automaton has 12 states. Word has length 27 [2018-11-23 11:07:16,356 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:16,356 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 12 states. [2018-11-23 11:07:16,359 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 12 states to 12 states and 56 transitions. [2018-11-23 11:07:16,359 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 12 states. [2018-11-23 11:07:16,362 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 12 states to 12 states and 56 transitions. [2018-11-23 11:07:16,362 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 12 states and 56 transitions. [2018-11-23 11:07:16,504 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 56 edges. 56 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:16,506 INFO L225 Difference]: With dead ends: 53 [2018-11-23 11:07:16,507 INFO L226 Difference]: Without dead ends: 40 [2018-11-23 11:07:16,508 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 57 GetRequests, 43 SyntacticMatches, 0 SemanticMatches, 14 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 6 ImplicationChecksByTransitivity, 0.4s TimeCoverageRelationStatistics Valid=94, Invalid=146, Unknown=0, NotChecked=0, Total=240 [2018-11-23 11:07:16,508 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 40 states. [2018-11-23 11:07:16,561 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 40 to 40. [2018-11-23 11:07:16,562 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:16,562 INFO L82 GeneralOperation]: Start isEquivalent. First operand 40 states. Second operand 40 states. [2018-11-23 11:07:16,562 INFO L74 IsIncluded]: Start isIncluded. First operand 40 states. Second operand 40 states. [2018-11-23 11:07:16,562 INFO L87 Difference]: Start difference. First operand 40 states. Second operand 40 states. [2018-11-23 11:07:16,566 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:16,566 INFO L93 Difference]: Finished difference Result 40 states and 41 transitions. [2018-11-23 11:07:16,566 INFO L276 IsEmpty]: Start isEmpty. Operand 40 states and 41 transitions. [2018-11-23 11:07:16,567 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:16,567 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:16,567 INFO L74 IsIncluded]: Start isIncluded. First operand 40 states. Second operand 40 states. [2018-11-23 11:07:16,568 INFO L87 Difference]: Start difference. First operand 40 states. Second operand 40 states. [2018-11-23 11:07:16,570 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:16,570 INFO L93 Difference]: Finished difference Result 40 states and 41 transitions. [2018-11-23 11:07:16,570 INFO L276 IsEmpty]: Start isEmpty. Operand 40 states and 41 transitions. [2018-11-23 11:07:16,571 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:16,571 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:16,571 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:16,572 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:16,572 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 40 states. [2018-11-23 11:07:16,574 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 40 states to 40 states and 41 transitions. [2018-11-23 11:07:16,574 INFO L78 Accepts]: Start accepts. Automaton has 40 states and 41 transitions. Word has length 27 [2018-11-23 11:07:16,574 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:16,574 INFO L480 AbstractCegarLoop]: Abstraction has 40 states and 41 transitions. [2018-11-23 11:07:16,575 INFO L481 AbstractCegarLoop]: Interpolant automaton has 12 states. [2018-11-23 11:07:16,575 INFO L276 IsEmpty]: Start isEmpty. Operand 40 states and 41 transitions. [2018-11-23 11:07:16,576 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 40 [2018-11-23 11:07:16,576 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:16,576 INFO L402 BasicCegarLoop]: trace histogram [10, 10, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:16,577 INFO L423 AbstractCegarLoop]: === Iteration 6 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:16,577 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:16,577 INFO L82 PathProgramCache]: Analyzing trace with hash -551618496, now seen corresponding path program 2 times [2018-11-23 11:07:16,578 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:16,578 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 7 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 7 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:16,597 INFO L101 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST1 [2018-11-23 11:07:19,679 INFO L249 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST1 issued 2 check-sat command(s) [2018-11-23 11:07:19,680 INFO L250 tOrderPrioritization]: Conjunction of SSA is unsat [2018-11-23 11:07:20,335 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:20,340 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:20,402 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 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 5 treesize of output 1 [2018-11-23 11:07:20,406 INFO L267 ElimStorePlain]: Start of recursive call 2: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,417 INFO L267 ElimStorePlain]: Start of recursive call 1: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,417 INFO L202 ElimStorePlain]: Needed 2 recursive calls to eliminate 1 variables, input treesize:15, output treesize:11 [2018-11-23 11:07:20,576 WARN L180 SmtUtils]: Spent 117.00 ms on a formula simplification that was a NOOP. DAG size: 10 [2018-11-23 11:07:20,617 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:20,623 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:20,636 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:20,640 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:20,644 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,664 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,676 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,706 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,706 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:34, output treesize:11 [2018-11-23 11:07:20,721 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:20,721 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_18|, |v_main_#t~nondet4_8|, |v_main_#t~nondet5_8|]. (and (= (store |v_#memory_int_18| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_18| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_8|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_8|))) |#memory_int|) (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:20,722 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:20,774 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:20,783 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:20,793 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:20,797 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:20,822 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,836 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,894 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,922 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:20,923 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:20,937 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:20,938 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_19|, |v_main_#t~nondet4_9|, |v_main_#t~nondet5_9|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_19| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_19| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_9|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_9|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))) [2018-11-23 11:07:20,938 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32))) [2018-11-23 11:07:20,989 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:20,996 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:21,018 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:21,025 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:21,029 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,044 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,058 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,086 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,086 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:21,101 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:21,102 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_20|, |v_main_#t~nondet4_10|, |v_main_#t~nondet5_10|]. (and (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_20| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_20| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_10|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_10|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,102 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,209 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:21,216 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:21,281 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:21,285 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:21,288 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,311 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,324 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,351 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,351 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:21,365 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:21,365 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_21|, |v_main_#t~nondet4_11|, |v_main_#t~nondet5_11|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_21| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_21| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_11|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_11|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))) [2018-11-23 11:07:21,366 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32))) [2018-11-23 11:07:21,477 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:21,497 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:21,511 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:21,516 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:21,520 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,537 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,550 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,574 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,575 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:21,590 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:21,591 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_22|, |v_main_#t~nondet4_12|, |v_main_#t~nondet5_12|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|) (= |#memory_int| (store |v_#memory_int_22| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_22| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_12|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_12|))))) [2018-11-23 11:07:21,591 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,655 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:21,662 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:21,671 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:21,676 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:21,679 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,695 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,707 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,735 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,736 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:21,751 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:21,751 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_23|, |v_main_#t~nondet4_13|, |v_main_#t~nondet5_13|]. (and (= |#memory_int| (store |v_#memory_int_23| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_23| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_13|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_13|)))) (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,751 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,851 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:21,858 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:21,871 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:21,876 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:21,899 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,915 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,925 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,951 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:21,952 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:21,967 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:21,967 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_24|, |v_main_#t~nondet4_14|, |v_main_#t~nondet5_14|]. (and (= (store |v_#memory_int_24| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_24| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_14|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_14|))) |#memory_int|) (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:21,967 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:22,027 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:22,037 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:22,050 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:22,057 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:22,061 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,074 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,087 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,114 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,115 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:34, output treesize:11 [2018-11-23 11:07:22,130 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:22,131 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_25|, |v_main_#t~nondet4_15|, |v_main_#t~nondet5_15|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_25| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_25| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_15|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_15|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0)) [2018-11-23 11:07:22,131 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0)) [2018-11-23 11:07:22,220 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:22,228 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:22,265 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:22,269 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:22,273 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,288 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,298 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,327 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,328 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:36, output treesize:13 [2018-11-23 11:07:22,342 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:22,342 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_26|, |v_main_#t~nondet4_16|, |v_main_#t~nondet5_16|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|) (= (store |v_#memory_int_26| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_26| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_16|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_16|))) |#memory_int|)) [2018-11-23 11:07:22,342 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:22,442 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 18 treesize of output 15 [2018-11-23 11:07:22,448 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 15 treesize of output 18 [2018-11-23 11:07:22,459 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:22,464 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 18 treesize of output 27 [2018-11-23 11:07:22,466 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,478 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,489 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,509 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,510 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:26, output treesize:8 [2018-11-23 11:07:22,523 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:22,523 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_27|, |v_main_#t~nondet4_17|, |v_main_#t~nondet5_17|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_27| |main_~#array~0.base| (store (store (select |v_#memory_int_27| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (_ bv72 32)) |v_main_#t~nondet4_17|) (bvadd |main_~#array~0.offset| (_ bv76 32)) |v_main_#t~nondet5_17|)) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:22,523 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:22,602 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 15 treesize of output 12 [2018-11-23 11:07:22,609 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 12 treesize of output 1 [2018-11-23 11:07:22,611 INFO L267 ElimStorePlain]: Start of recursive call 3: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,614 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,659 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:22,659 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:52, output treesize:33 [2018-11-23 11:07:22,673 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:22,674 WARN L384 uantifierElimination]: Input elimination task: ∃ [|main_~#cont~0.base|, |main_~#cont~0.offset|, |v_#memory_int_28|]. (let ((.cse0 (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)))) (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= .cse0 main_~pa~0.offset) (= (store |v_#memory_int_28| |main_~#cont~0.base| (store (select |v_#memory_int_28| |main_~#cont~0.base|) |main_~#cont~0.offset| (select (select |#memory_int| |main_~#cont~0.base|) |main_~#cont~0.offset|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) .cse0) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))) [2018-11-23 11:07:22,674 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (let ((.cse0 (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)))) (and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= .cse0 main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) .cse0) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))) [2018-11-23 11:07:23,432 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 30 [2018-11-23 11:07:23,443 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 0 new quantified variables, introduced 0 case distinctions, treesize of input 30 treesize of output 9 [2018-11-23 11:07:23,465 INFO L267 ElimStorePlain]: Start of recursive call 3: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:23,511 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:23,532 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:23,533 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:42, output treesize:9 [2018-11-23 11:07:23,546 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:23,547 WARN L384 uantifierElimination]: Input elimination task: ∃ [|#memory_int|, main_~pa~0.base, v_main_~i~0_18]. (let ((.cse0 (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= |main_#t~mem10| .cse0) (= (bvadd main_~i~0 (_ bv9 32)) .cse0) (bvsgt .cse0 (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)))) [2018-11-23 11:07:23,547 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (bvsgt |main_#t~mem10| (_ bv0 32)) (= |main_#t~mem10| (bvadd main_~i~0 (_ bv9 32)))) [2018-11-23 11:07:23,663 INFO L256 TraceCheckUtils]: 0: Hoare triple {1265#true} call ULTIMATE.init(); {1265#true} is VALID [2018-11-23 11:07:23,663 INFO L273 TraceCheckUtils]: 1: Hoare triple {1265#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {1265#true} is VALID [2018-11-23 11:07:23,664 INFO L273 TraceCheckUtils]: 2: Hoare triple {1265#true} assume true; {1265#true} is VALID [2018-11-23 11:07:23,664 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {1265#true} {1265#true} #57#return; {1265#true} is VALID [2018-11-23 11:07:23,664 INFO L256 TraceCheckUtils]: 4: Hoare triple {1265#true} call #t~ret13 := main(); {1265#true} is VALID [2018-11-23 11:07:23,666 INFO L273 TraceCheckUtils]: 5: Hoare triple {1265#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {1285#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,668 INFO L273 TraceCheckUtils]: 6: Hoare triple {1285#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1285#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,669 INFO L273 TraceCheckUtils]: 7: Hoare triple {1285#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= main_~j~0 (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1292#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32)))} is VALID [2018-11-23 11:07:23,671 INFO L273 TraceCheckUtils]: 8: Hoare triple {1292#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32)))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1292#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32)))} is VALID [2018-11-23 11:07:23,672 INFO L273 TraceCheckUtils]: 9: Hoare triple {1292#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv0 32)))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1299#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,673 INFO L273 TraceCheckUtils]: 10: Hoare triple {1299#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1299#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,674 INFO L273 TraceCheckUtils]: 11: Hoare triple {1299#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967294 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1306#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32)))} is VALID [2018-11-23 11:07:23,676 INFO L273 TraceCheckUtils]: 12: Hoare triple {1306#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32)))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1306#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32)))} is VALID [2018-11-23 11:07:23,677 INFO L273 TraceCheckUtils]: 13: Hoare triple {1306#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (bvadd main_~j~0 (_ bv4294967293 32)) (_ bv0 32)))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1313#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,678 INFO L273 TraceCheckUtils]: 14: Hoare triple {1313#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1313#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,680 INFO L273 TraceCheckUtils]: 15: Hoare triple {1313#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967292 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1320#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,681 INFO L273 TraceCheckUtils]: 16: Hoare triple {1320#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1320#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,683 INFO L273 TraceCheckUtils]: 17: Hoare triple {1320#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967291 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1327#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,684 INFO L273 TraceCheckUtils]: 18: Hoare triple {1327#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1327#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,686 INFO L273 TraceCheckUtils]: 19: Hoare triple {1327#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967290 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1334#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0))} is VALID [2018-11-23 11:07:23,687 INFO L273 TraceCheckUtils]: 20: Hoare triple {1334#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1334#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0))} is VALID [2018-11-23 11:07:23,688 INFO L273 TraceCheckUtils]: 21: Hoare triple {1334#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv7 32) main_~j~0))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1341#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,690 INFO L273 TraceCheckUtils]: 22: Hoare triple {1341#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1341#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,691 INFO L273 TraceCheckUtils]: 23: Hoare triple {1341#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (bvadd main_~j~0 (_ bv4294967288 32)) (_ bv0 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1348#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv9 32) main_~j~0))} is VALID [2018-11-23 11:07:23,692 INFO L273 TraceCheckUtils]: 24: Hoare triple {1348#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (_ bv9 32) main_~j~0))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,693 INFO L273 TraceCheckUtils]: 25: Hoare triple {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,694 INFO L273 TraceCheckUtils]: 26: Hoare triple {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !~bvslt32(~j~0, 10bv32); {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:23,703 INFO L273 TraceCheckUtils]: 27: Hoare triple {1352#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {1362#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} is VALID [2018-11-23 11:07:23,817 INFO L273 TraceCheckUtils]: 28: Hoare triple {1362#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {1366#(exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18))))} is VALID [2018-11-23 11:07:23,819 INFO L273 TraceCheckUtils]: 29: Hoare triple {1366#(exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1370#(and (exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18)))) (= |main_#t~mem10| (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} is VALID [2018-11-23 11:07:23,823 INFO L273 TraceCheckUtils]: 30: Hoare triple {1370#(and (exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18)))) (= |main_#t~mem10| (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1374#(exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32)))) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18))))} is VALID [2018-11-23 11:07:23,847 INFO L273 TraceCheckUtils]: 31: Hoare triple {1374#(exists ((v_main_~i~0_18 (_ BitVec 32))) (and (bvsge v_main_~i~0_18 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32)))) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_18) (_ bv4 32))) (_ bv0 32)) (bvslt v_main_~i~0_18 (_ bv9 32)) (= (bvadd main_~pa~0.offset (_ bv4294967292 32)) (bvmul (_ bv8 32) v_main_~i~0_18))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1378#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd |main_#t~mem10| (_ bv4294967287 32)) main_~i~0))} is VALID [2018-11-23 11:07:23,853 INFO L273 TraceCheckUtils]: 32: Hoare triple {1378#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd |main_#t~mem10| (_ bv4294967287 32)) main_~i~0))} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {1266#false} is VALID [2018-11-23 11:07:23,853 INFO L256 TraceCheckUtils]: 33: Hoare triple {1266#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {1266#false} is VALID [2018-11-23 11:07:23,853 INFO L273 TraceCheckUtils]: 34: Hoare triple {1266#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {1266#false} is VALID [2018-11-23 11:07:23,854 INFO L273 TraceCheckUtils]: 35: Hoare triple {1266#false} assume true; {1266#false} is VALID [2018-11-23 11:07:23,854 INFO L268 TraceCheckUtils]: 36: Hoare quadruple {1266#false} {1266#false} #61#return; {1266#false} is VALID [2018-11-23 11:07:23,854 INFO L273 TraceCheckUtils]: 37: Hoare triple {1266#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {1266#false} is VALID [2018-11-23 11:07:23,854 INFO L273 TraceCheckUtils]: 38: Hoare triple {1266#false} assume !false; {1266#false} is VALID [2018-11-23 11:07:23,860 INFO L134 CoverageAnalysis]: Checked inductivity of 102 backedges. 0 proven. 102 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 11:07:23,861 INFO L316 TraceCheckSpWp]: Computing backward predicates... [2018-11-23 11:07:26,880 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-0 vars, End of recursive call: 1 dim-0 vars, and 1 xjuncts. [2018-11-23 11:07:26,889 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:26,890 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:26,890 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:85, output treesize:1 [2018-11-23 11:07:26,929 INFO L273 TraceCheckUtils]: 38: Hoare triple {1266#false} assume !false; {1266#false} is VALID [2018-11-23 11:07:26,929 INFO L273 TraceCheckUtils]: 37: Hoare triple {1266#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {1266#false} is VALID [2018-11-23 11:07:26,930 INFO L268 TraceCheckUtils]: 36: Hoare quadruple {1265#true} {1266#false} #61#return; {1266#false} is VALID [2018-11-23 11:07:26,930 INFO L273 TraceCheckUtils]: 35: Hoare triple {1265#true} assume true; {1265#true} is VALID [2018-11-23 11:07:26,930 INFO L273 TraceCheckUtils]: 34: Hoare triple {1265#true} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {1265#true} is VALID [2018-11-23 11:07:26,930 INFO L256 TraceCheckUtils]: 33: Hoare triple {1266#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {1265#true} is VALID [2018-11-23 11:07:26,934 INFO L273 TraceCheckUtils]: 32: Hoare triple {1418#(bvslt main_~i~0 |main_#t~mem10|)} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {1266#false} is VALID [2018-11-23 11:07:26,935 INFO L273 TraceCheckUtils]: 31: Hoare triple {1422#(bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1418#(bvslt main_~i~0 |main_#t~mem10|)} is VALID [2018-11-23 11:07:26,936 INFO L273 TraceCheckUtils]: 30: Hoare triple {1426#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 |main_#t~mem10|)))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1422#(bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))} is VALID [2018-11-23 11:07:26,936 INFO L273 TraceCheckUtils]: 29: Hoare triple {1430#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1426#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 |main_#t~mem10|)))} is VALID [2018-11-23 11:07:26,967 INFO L273 TraceCheckUtils]: 28: Hoare triple {1434#(or (not (bvsgt |main_#t~mem8| (_ bv0 32))) (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967287 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967286 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {1430#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:28,974 INFO L273 TraceCheckUtils]: 27: Hoare triple {1265#true} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {1434#(or (not (bvsgt |main_#t~mem8| (_ bv0 32))) (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967287 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967286 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is UNKNOWN [2018-11-23 11:07:28,974 INFO L273 TraceCheckUtils]: 26: Hoare triple {1265#true} assume !~bvslt32(~j~0, 10bv32); {1265#true} is VALID [2018-11-23 11:07:28,975 INFO L273 TraceCheckUtils]: 25: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,975 INFO L273 TraceCheckUtils]: 24: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,975 INFO L273 TraceCheckUtils]: 23: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,975 INFO L273 TraceCheckUtils]: 22: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,976 INFO L273 TraceCheckUtils]: 21: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,976 INFO L273 TraceCheckUtils]: 20: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,976 INFO L273 TraceCheckUtils]: 19: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,976 INFO L273 TraceCheckUtils]: 18: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,977 INFO L273 TraceCheckUtils]: 17: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,977 INFO L273 TraceCheckUtils]: 16: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,977 INFO L273 TraceCheckUtils]: 15: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,977 INFO L273 TraceCheckUtils]: 14: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,977 INFO L273 TraceCheckUtils]: 13: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,978 INFO L273 TraceCheckUtils]: 12: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,978 INFO L273 TraceCheckUtils]: 11: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,978 INFO L273 TraceCheckUtils]: 10: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,978 INFO L273 TraceCheckUtils]: 9: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,978 INFO L273 TraceCheckUtils]: 8: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,979 INFO L273 TraceCheckUtils]: 7: Hoare triple {1265#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1265#true} is VALID [2018-11-23 11:07:28,979 INFO L273 TraceCheckUtils]: 6: Hoare triple {1265#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1265#true} is VALID [2018-11-23 11:07:28,979 INFO L273 TraceCheckUtils]: 5: Hoare triple {1265#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {1265#true} is VALID [2018-11-23 11:07:28,979 INFO L256 TraceCheckUtils]: 4: Hoare triple {1265#true} call #t~ret13 := main(); {1265#true} is VALID [2018-11-23 11:07:28,979 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {1265#true} {1265#true} #57#return; {1265#true} is VALID [2018-11-23 11:07:28,980 INFO L273 TraceCheckUtils]: 2: Hoare triple {1265#true} assume true; {1265#true} is VALID [2018-11-23 11:07:28,980 INFO L273 TraceCheckUtils]: 1: Hoare triple {1265#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {1265#true} is VALID [2018-11-23 11:07:28,980 INFO L256 TraceCheckUtils]: 0: Hoare triple {1265#true} call ULTIMATE.init(); {1265#true} is VALID [2018-11-23 11:07:28,982 INFO L134 CoverageAnalysis]: Checked inductivity of 102 backedges. 0 proven. 2 refuted. 0 times theorem prover too weak. 100 trivial. 0 not checked. [2018-11-23 11:07:28,988 INFO L312 seRefinementStrategy]: Constructing automaton from 0 perfect and 2 imperfect interpolant sequences. [2018-11-23 11:07:28,989 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [] imperfect sequences [18, 7] total 23 [2018-11-23 11:07:28,989 INFO L78 Accepts]: Start accepts. Automaton has 23 states. Word has length 39 [2018-11-23 11:07:28,990 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:28,990 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 23 states. [2018-11-23 11:07:31,354 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 53 edges. 52 inductive. 0 not inductive. 1 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:31,354 INFO L459 AbstractCegarLoop]: Interpolant automaton has 23 states [2018-11-23 11:07:31,354 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 23 interpolants. [2018-11-23 11:07:31,355 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=66, Invalid=440, Unknown=0, NotChecked=0, Total=506 [2018-11-23 11:07:31,355 INFO L87 Difference]: Start difference. First operand 40 states and 41 transitions. Second operand 23 states. [2018-11-23 11:07:46,026 WARN L180 SmtUtils]: Spent 103.00 ms on a formula simplification. DAG size of input: 24 DAG size of output: 19 [2018-11-23 11:07:46,707 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:46,707 INFO L93 Difference]: Finished difference Result 54 states and 57 transitions. [2018-11-23 11:07:46,707 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 22 states. [2018-11-23 11:07:46,707 INFO L78 Accepts]: Start accepts. Automaton has 23 states. Word has length 39 [2018-11-23 11:07:46,708 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:07:46,708 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 23 states. [2018-11-23 11:07:46,710 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 22 states to 22 states and 57 transitions. [2018-11-23 11:07:46,710 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 23 states. [2018-11-23 11:07:46,713 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 22 states to 22 states and 57 transitions. [2018-11-23 11:07:46,713 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 22 states and 57 transitions. [2018-11-23 11:07:47,065 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 57 edges. 57 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:07:47,066 INFO L225 Difference]: With dead ends: 54 [2018-11-23 11:07:47,067 INFO L226 Difference]: Without dead ends: 47 [2018-11-23 11:07:47,067 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 86 GetRequests, 56 SyntacticMatches, 0 SemanticMatches, 30 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 71 ImplicationChecksByTransitivity, 3.0s TimeCoverageRelationStatistics Valid=144, Invalid=848, Unknown=0, NotChecked=0, Total=992 [2018-11-23 11:07:47,068 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 47 states. [2018-11-23 11:07:47,208 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 47 to 46. [2018-11-23 11:07:47,208 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:07:47,208 INFO L82 GeneralOperation]: Start isEquivalent. First operand 47 states. Second operand 46 states. [2018-11-23 11:07:47,208 INFO L74 IsIncluded]: Start isIncluded. First operand 47 states. Second operand 46 states. [2018-11-23 11:07:47,208 INFO L87 Difference]: Start difference. First operand 47 states. Second operand 46 states. [2018-11-23 11:07:47,211 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:47,211 INFO L93 Difference]: Finished difference Result 47 states and 48 transitions. [2018-11-23 11:07:47,212 INFO L276 IsEmpty]: Start isEmpty. Operand 47 states and 48 transitions. [2018-11-23 11:07:47,213 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:47,213 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:47,213 INFO L74 IsIncluded]: Start isIncluded. First operand 46 states. Second operand 47 states. [2018-11-23 11:07:47,213 INFO L87 Difference]: Start difference. First operand 46 states. Second operand 47 states. [2018-11-23 11:07:47,215 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:07:47,215 INFO L93 Difference]: Finished difference Result 47 states and 48 transitions. [2018-11-23 11:07:47,216 INFO L276 IsEmpty]: Start isEmpty. Operand 47 states and 48 transitions. [2018-11-23 11:07:47,216 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:07:47,216 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:07:47,216 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:07:47,217 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:07:47,217 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 46 states. [2018-11-23 11:07:47,218 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 46 states to 46 states and 47 transitions. [2018-11-23 11:07:47,219 INFO L78 Accepts]: Start accepts. Automaton has 46 states and 47 transitions. Word has length 39 [2018-11-23 11:07:47,219 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:07:47,219 INFO L480 AbstractCegarLoop]: Abstraction has 46 states and 47 transitions. [2018-11-23 11:07:47,219 INFO L481 AbstractCegarLoop]: Interpolant automaton has 23 states. [2018-11-23 11:07:47,219 INFO L276 IsEmpty]: Start isEmpty. Operand 46 states and 47 transitions. [2018-11-23 11:07:47,220 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 46 [2018-11-23 11:07:47,221 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:07:47,221 INFO L402 BasicCegarLoop]: trace histogram [10, 10, 5, 4, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:07:47,221 INFO L423 AbstractCegarLoop]: === Iteration 7 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:07:47,221 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:07:47,221 INFO L82 PathProgramCache]: Analyzing trace with hash 1264372271, now seen corresponding path program 3 times [2018-11-23 11:07:47,222 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:07:47,222 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 8 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 8 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:07:47,240 INFO L101 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST2 [2018-11-23 11:07:47,796 INFO L249 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST2 issued 5 check-sat command(s) [2018-11-23 11:07:47,797 INFO L250 tOrderPrioritization]: Conjunction of SSA is unsat [2018-11-23 11:07:47,936 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 11:07:47,940 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-11-23 11:07:47,967 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 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 5 treesize of output 1 [2018-11-23 11:07:47,968 INFO L267 ElimStorePlain]: Start of recursive call 2: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:47,976 INFO L267 ElimStorePlain]: Start of recursive call 1: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:47,977 INFO L202 ElimStorePlain]: Needed 2 recursive calls to eliminate 1 variables, input treesize:12, output treesize:8 [2018-11-23 11:07:48,060 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:48,066 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:48,077 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:48,084 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:48,101 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,118 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,132 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,157 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,158 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:31, output treesize:8 [2018-11-23 11:07:48,172 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:48,173 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_30|, |v_main_#t~nondet4_18|, |v_main_#t~nondet5_18|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|) (= (store |v_#memory_int_30| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_30| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_18|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_18|))) |#memory_int|)) [2018-11-23 11:07:48,173 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:48,203 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 23 treesize of output 20 [2018-11-23 11:07:48,210 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 1 new quantified variables, introduced 0 case distinctions, treesize of input 20 treesize of output 23 [2018-11-23 11:07:48,227 INFO L701 Elim1Store]: detected not equals via solver [2018-11-23 11:07:48,235 INFO L478 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 1 stores, 1 select indices, 1 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 23 treesize of output 37 [2018-11-23 11:07:48,237 INFO L267 ElimStorePlain]: Start of recursive call 4: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,254 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,268 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,299 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,299 INFO L202 ElimStorePlain]: Needed 4 recursive calls to eliminate 3 variables, input treesize:34, output treesize:11 [2018-11-23 11:07:48,315 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:48,315 WARN L384 uantifierElimination]: Input elimination task: ∃ [|v_#memory_int_31|, |v_main_#t~nondet4_19|, |v_main_#t~nondet5_19|]. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt main_~j~0 (_ bv10 32)) (= (store |v_#memory_int_31| |main_~#array~0.base| (let ((.cse0 (bvmul (_ bv8 32) main_~j~0))) (store (store (select |v_#memory_int_31| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| .cse0) |v_main_#t~nondet4_19|) (bvadd |main_~#array~0.offset| .cse0 (_ bv4 32)) |v_main_#t~nondet5_19|))) |#memory_int|) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:48,315 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt main_~j~0 (_ bv10 32)) (= (_ bv0 32) |main_~#array~0.offset|)) [2018-11-23 11:07:48,457 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 15 treesize of output 12 [2018-11-23 11:07:48,465 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 12 treesize of output 1 [2018-11-23 11:07:48,465 INFO L267 ElimStorePlain]: Start of recursive call 3: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,468 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,529 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:48,529 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:52, output treesize:33 [2018-11-23 11:07:48,544 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:48,545 WARN L384 uantifierElimination]: Input elimination task: ∃ [|main_~#cont~0.base|, |main_~#cont~0.offset|, |v_#memory_int_32|]. (let ((.cse0 (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)))) (and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (store |v_#memory_int_32| |main_~#cont~0.base| (store (select |v_#memory_int_32| |main_~#cont~0.base|) |main_~#cont~0.offset| (select (select |#memory_int| |main_~#cont~0.base|) |main_~#cont~0.offset|))) |#memory_int|) (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= .cse0 main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) .cse0) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))) [2018-11-23 11:07:48,545 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (let ((.cse0 (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)))) (and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= .cse0 main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) .cse0) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))) [2018-11-23 11:07:49,662 WARN L180 SmtUtils]: Spent 144.00 ms on a formula simplification. DAG size of input: 27 DAG size of output: 22 [2018-11-23 11:07:49,686 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 30 [2018-11-23 11:07:49,711 INFO L478 Elim1Store]: Elim1 did not use preprocessing 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 0 new quantified variables, introduced 0 case distinctions, treesize of input 30 treesize of output 9 [2018-11-23 11:07:49,712 INFO L267 ElimStorePlain]: Start of recursive call 3: End of recursive call: and 1 xjuncts. [2018-11-23 11:07:49,722 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:49,740 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:49,740 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:42, output treesize:9 [2018-11-23 11:07:49,751 WARN L383 uantifierElimination]: Trying to double check SDD result, but SMT solver's response was UNKNOWN. [2018-11-23 11:07:49,752 WARN L384 uantifierElimination]: Input elimination task: ∃ [|#memory_int|, main_~pa~0.base, v_main_~i~0_22]. (let ((.cse0 (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (bvsgt .cse0 (_ bv0 32)) (= |main_#t~mem10| .cse0) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) .cse0))) [2018-11-23 11:07:49,752 WARN L385 uantifierElimination]: ElimStorePlain result: ∃ []. (and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) |main_#t~mem10|)) [2018-11-23 11:07:49,823 INFO L256 TraceCheckUtils]: 0: Hoare triple {1782#true} call ULTIMATE.init(); {1782#true} is VALID [2018-11-23 11:07:49,824 INFO L273 TraceCheckUtils]: 1: Hoare triple {1782#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {1782#true} is VALID [2018-11-23 11:07:49,824 INFO L273 TraceCheckUtils]: 2: Hoare triple {1782#true} assume true; {1782#true} is VALID [2018-11-23 11:07:49,824 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {1782#true} {1782#true} #57#return; {1782#true} is VALID [2018-11-23 11:07:49,824 INFO L256 TraceCheckUtils]: 4: Hoare triple {1782#true} call #t~ret13 := main(); {1782#true} is VALID [2018-11-23 11:07:49,826 INFO L273 TraceCheckUtils]: 5: Hoare triple {1782#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,827 INFO L273 TraceCheckUtils]: 6: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,828 INFO L273 TraceCheckUtils]: 7: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,829 INFO L273 TraceCheckUtils]: 8: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,830 INFO L273 TraceCheckUtils]: 9: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,831 INFO L273 TraceCheckUtils]: 10: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,832 INFO L273 TraceCheckUtils]: 11: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,833 INFO L273 TraceCheckUtils]: 12: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,834 INFO L273 TraceCheckUtils]: 13: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,835 INFO L273 TraceCheckUtils]: 14: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,836 INFO L273 TraceCheckUtils]: 15: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,837 INFO L273 TraceCheckUtils]: 16: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,838 INFO L273 TraceCheckUtils]: 17: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,839 INFO L273 TraceCheckUtils]: 18: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,840 INFO L273 TraceCheckUtils]: 19: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,841 INFO L273 TraceCheckUtils]: 20: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,842 INFO L273 TraceCheckUtils]: 21: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,843 INFO L273 TraceCheckUtils]: 22: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,855 INFO L273 TraceCheckUtils]: 23: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,856 INFO L273 TraceCheckUtils]: 24: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1860#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt main_~j~0 (_ bv10 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,860 INFO L273 TraceCheckUtils]: 25: Hoare triple {1860#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt main_~j~0 (_ bv10 32)) (= (_ bv0 32) |main_~#array~0.offset|))} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1864#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv10 32)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,862 INFO L273 TraceCheckUtils]: 26: Hoare triple {1864#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (bvslt (bvadd main_~j~0 (_ bv4294967295 32)) (_ bv10 32)) (= (_ bv0 32) |main_~#array~0.offset|))} assume !~bvslt32(~j~0, 10bv32); {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} is VALID [2018-11-23 11:07:49,870 INFO L273 TraceCheckUtils]: 27: Hoare triple {1802#(and (not (= |main_~#array~0.base| |main_~#cont~0.base|)) (= (_ bv0 32) |main_~#array~0.offset|))} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {1871#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} is VALID [2018-11-23 11:07:49,958 INFO L273 TraceCheckUtils]: 28: Hoare triple {1871#(and (bvslt main_~i~0 (_ bv9 32)) (bvsge main_~i~0 (_ bv0 32)) (= (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32)) main_~pa~0.offset) (= (_ bv0 32) |main_~#array~0.offset|) (= (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) |main_#t~mem8|) (= |main_~#array~0.base| main_~pa~0.base))} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {1875#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsge v_main_~i~0_22 (_ bv0 32))))} is VALID [2018-11-23 11:07:49,958 INFO L273 TraceCheckUtils]: 29: Hoare triple {1875#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsge v_main_~i~0_22 (_ bv0 32))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1875#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsge v_main_~i~0_22 (_ bv0 32))))} is VALID [2018-11-23 11:07:49,962 INFO L273 TraceCheckUtils]: 30: Hoare triple {1875#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv4294967286 32)) main_~i~0) (bvsge v_main_~i~0_22 (_ bv0 32))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1882#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} is VALID [2018-11-23 11:07:49,966 INFO L273 TraceCheckUtils]: 31: Hoare triple {1882#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1882#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} is VALID [2018-11-23 11:07:49,999 INFO L273 TraceCheckUtils]: 32: Hoare triple {1882#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv9 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1889#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv8 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} is VALID [2018-11-23 11:07:50,000 INFO L273 TraceCheckUtils]: 33: Hoare triple {1889#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv8 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1889#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv8 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} is VALID [2018-11-23 11:07:50,040 INFO L273 TraceCheckUtils]: 34: Hoare triple {1889#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv8 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1896#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv7 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)))) (bvsge v_main_~i~0_22 (_ bv0 32))))} is VALID [2018-11-23 11:07:50,041 INFO L273 TraceCheckUtils]: 35: Hoare triple {1896#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv7 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)))) (bvsge v_main_~i~0_22 (_ bv0 32))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1900#(and (= |main_#t~mem10| (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv7 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)))) (bvsge v_main_~i~0_22 (_ bv0 32)))))} is VALID [2018-11-23 11:07:50,077 INFO L273 TraceCheckUtils]: 36: Hoare triple {1900#(and (= |main_#t~mem10| (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (= (bvadd main_~i~0 (_ bv7 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)))) (bvsge v_main_~i~0_22 (_ bv0 32)))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1904#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} is VALID [2018-11-23 11:07:50,213 INFO L273 TraceCheckUtils]: 37: Hoare triple {1904#(exists ((v_main_~i~0_22 (_ BitVec 32))) (and (bvslt v_main_~i~0_22 (_ bv9 32)) (= (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32)) main_~pa~0.offset) (bvsgt (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))) (_ bv0 32)) (bvsge v_main_~i~0_22 (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) (select (select |#memory_int| main_~pa~0.base) (bvadd (bvmul (_ bv8 32) v_main_~i~0_22) (_ bv4 32))))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1908#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) |main_#t~mem10|))} is VALID [2018-11-23 11:07:50,221 INFO L273 TraceCheckUtils]: 38: Hoare triple {1908#(and (bvsgt |main_#t~mem10| (_ bv0 32)) (= (bvadd main_~i~0 (_ bv6 32)) |main_#t~mem10|))} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {1783#false} is VALID [2018-11-23 11:07:50,221 INFO L256 TraceCheckUtils]: 39: Hoare triple {1783#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {1783#false} is VALID [2018-11-23 11:07:50,221 INFO L273 TraceCheckUtils]: 40: Hoare triple {1783#false} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {1783#false} is VALID [2018-11-23 11:07:50,222 INFO L273 TraceCheckUtils]: 41: Hoare triple {1783#false} assume true; {1783#false} is VALID [2018-11-23 11:07:50,222 INFO L268 TraceCheckUtils]: 42: Hoare quadruple {1783#false} {1783#false} #61#return; {1783#false} is VALID [2018-11-23 11:07:50,222 INFO L273 TraceCheckUtils]: 43: Hoare triple {1783#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {1783#false} is VALID [2018-11-23 11:07:50,222 INFO L273 TraceCheckUtils]: 44: Hoare triple {1783#false} assume !false; {1783#false} is VALID [2018-11-23 11:07:50,227 INFO L134 CoverageAnalysis]: Checked inductivity of 120 backedges. 19 proven. 20 refuted. 0 times theorem prover too weak. 81 trivial. 0 not checked. [2018-11-23 11:07:50,228 INFO L316 TraceCheckSpWp]: Computing backward predicates... [2018-11-23 11:07:55,175 INFO L267 ElimStorePlain]: Start of recursive call 3: 1 dim-0 vars, End of recursive call: 1 dim-0 vars, and 1 xjuncts. [2018-11-23 11:07:55,185 INFO L267 ElimStorePlain]: Start of recursive call 2: 1 dim-1 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:55,186 INFO L267 ElimStorePlain]: Start of recursive call 1: 2 dim-0 vars, 1 dim-2 vars, End of recursive call: and 1 xjuncts. [2018-11-23 11:07:55,187 INFO L202 ElimStorePlain]: Needed 3 recursive calls to eliminate 3 variables, input treesize:85, output treesize:1 [2018-11-23 11:07:55,219 INFO L273 TraceCheckUtils]: 44: Hoare triple {1783#false} assume !false; {1783#false} is VALID [2018-11-23 11:07:55,219 INFO L273 TraceCheckUtils]: 43: Hoare triple {1783#false} assume 0bv32 == #t~ret12;havoc #t~ret12; {1783#false} is VALID [2018-11-23 11:07:55,220 INFO L268 TraceCheckUtils]: 42: Hoare quadruple {1782#true} {1783#false} #61#return; {1783#false} is VALID [2018-11-23 11:07:55,220 INFO L273 TraceCheckUtils]: 41: Hoare triple {1782#true} assume true; {1782#true} is VALID [2018-11-23 11:07:55,220 INFO L273 TraceCheckUtils]: 40: Hoare triple {1782#true} ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; {1782#true} is VALID [2018-11-23 11:07:55,220 INFO L256 TraceCheckUtils]: 39: Hoare triple {1783#false} call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); {1782#true} is VALID [2018-11-23 11:07:55,221 INFO L273 TraceCheckUtils]: 38: Hoare triple {1948#(bvslt main_~i~0 |main_#t~mem10|)} assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; {1783#false} is VALID [2018-11-23 11:07:55,222 INFO L273 TraceCheckUtils]: 37: Hoare triple {1952#(bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1948#(bvslt main_~i~0 |main_#t~mem10|)} is VALID [2018-11-23 11:07:55,222 INFO L273 TraceCheckUtils]: 36: Hoare triple {1956#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 |main_#t~mem10|)))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1952#(bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))} is VALID [2018-11-23 11:07:55,223 INFO L273 TraceCheckUtils]: 35: Hoare triple {1960#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1956#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 |main_#t~mem10|)))} is VALID [2018-11-23 11:07:55,254 INFO L273 TraceCheckUtils]: 34: Hoare triple {1964#(or (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1960#(or (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt main_~i~0 (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:55,255 INFO L273 TraceCheckUtils]: 33: Hoare triple {1964#(or (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1964#(or (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:55,315 INFO L273 TraceCheckUtils]: 32: Hoare triple {1971#(or (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1964#(or (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv1 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:55,316 INFO L273 TraceCheckUtils]: 31: Hoare triple {1971#(or (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1971#(or (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:55,373 INFO L273 TraceCheckUtils]: 30: Hoare triple {1978#(or (not (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))) (bvslt (bvadd main_~i~0 (_ bv4 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; {1971#(or (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd main_~i~0 (_ bv2 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is VALID [2018-11-23 11:07:55,374 INFO L273 TraceCheckUtils]: 29: Hoare triple {1978#(or (not (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))) (bvslt (bvadd main_~i~0 (_ bv4 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); {1978#(or (not (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))) (bvslt (bvadd main_~i~0 (_ bv4 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} is VALID [2018-11-23 11:07:55,447 INFO L273 TraceCheckUtils]: 28: Hoare triple {1985#(or (not (bvsgt |main_#t~mem8| (_ bv0 32))) (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967290 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967289 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; {1978#(or (not (bvslt (bvadd main_~i~0 (_ bv3 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))) (bvslt (bvadd main_~i~0 (_ bv4 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)))} is VALID [2018-11-23 11:07:57,460 INFO L273 TraceCheckUtils]: 27: Hoare triple {1782#true} assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); {1985#(or (not (bvsgt |main_#t~mem8| (_ bv0 32))) (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967290 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset)) (not (bvslt (bvadd (select (select |#memory_int| |main_~#array~0.base|) (bvadd |main_~#array~0.offset| (bvmul (_ bv8 32) main_~i~0) (_ bv4 32))) (_ bv4294967289 32)) (select (select |#memory_int| main_~pa~0.base) main_~pa~0.offset))))} is UNKNOWN [2018-11-23 11:07:57,461 INFO L273 TraceCheckUtils]: 26: Hoare triple {1782#true} assume !~bvslt32(~j~0, 10bv32); {1782#true} is VALID [2018-11-23 11:07:57,461 INFO L273 TraceCheckUtils]: 25: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,461 INFO L273 TraceCheckUtils]: 24: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 23: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 22: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 21: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 20: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 19: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,462 INFO L273 TraceCheckUtils]: 18: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,463 INFO L273 TraceCheckUtils]: 17: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,463 INFO L273 TraceCheckUtils]: 16: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,463 INFO L273 TraceCheckUtils]: 15: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,463 INFO L273 TraceCheckUtils]: 14: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,463 INFO L273 TraceCheckUtils]: 13: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,464 INFO L273 TraceCheckUtils]: 12: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,464 INFO L273 TraceCheckUtils]: 11: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,464 INFO L273 TraceCheckUtils]: 10: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,464 INFO L273 TraceCheckUtils]: 9: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,464 INFO L273 TraceCheckUtils]: 8: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,465 INFO L273 TraceCheckUtils]: 7: Hoare triple {1782#true} #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; {1782#true} is VALID [2018-11-23 11:07:57,465 INFO L273 TraceCheckUtils]: 6: Hoare triple {1782#true} assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; {1782#true} is VALID [2018-11-23 11:07:57,465 INFO L273 TraceCheckUtils]: 5: Hoare triple {1782#true} call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; {1782#true} is VALID [2018-11-23 11:07:57,465 INFO L256 TraceCheckUtils]: 4: Hoare triple {1782#true} call #t~ret13 := main(); {1782#true} is VALID [2018-11-23 11:07:57,466 INFO L268 TraceCheckUtils]: 3: Hoare quadruple {1782#true} {1782#true} #57#return; {1782#true} is VALID [2018-11-23 11:07:57,466 INFO L273 TraceCheckUtils]: 2: Hoare triple {1782#true} assume true; {1782#true} is VALID [2018-11-23 11:07:57,466 INFO L273 TraceCheckUtils]: 1: Hoare triple {1782#true} #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; {1782#true} is VALID [2018-11-23 11:07:57,466 INFO L256 TraceCheckUtils]: 0: Hoare triple {1782#true} call ULTIMATE.init(); {1782#true} is VALID [2018-11-23 11:07:57,471 INFO L134 CoverageAnalysis]: Checked inductivity of 120 backedges. 0 proven. 20 refuted. 0 times theorem prover too weak. 100 trivial. 0 not checked. [MP cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (8)] Exception during sending of exit command (exit): Stream Closed [2018-11-23 11:07:57,476 INFO L312 seRefinementStrategy]: Constructing automaton from 0 perfect and 2 imperfect interpolant sequences. [2018-11-23 11:07:57,476 INFO L327 seRefinementStrategy]: Number of different interpolants: perfect sequences [] imperfect sequences [13, 10] total 21 [2018-11-23 11:07:57,477 INFO L78 Accepts]: Start accepts. Automaton has 21 states. Word has length 45 [2018-11-23 11:07:57,477 INFO L84 Accepts]: Finished accepts. word is accepted. [2018-11-23 11:07:57,478 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 21 states. [2018-11-23 11:08:00,147 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 49 edges. 48 inductive. 0 not inductive. 1 times theorem prover too weak to decide inductivity. [2018-11-23 11:08:00,147 INFO L459 AbstractCegarLoop]: Interpolant automaton has 21 states [2018-11-23 11:08:00,147 INFO L142 InterpolantAutomaton]: Constructing interpolant automaton starting with 21 interpolants. [2018-11-23 11:08:00,148 INFO L144 InterpolantAutomaton]: CoverageRelationStatistics Valid=81, Invalid=339, Unknown=0, NotChecked=0, Total=420 [2018-11-23 11:08:00,148 INFO L87 Difference]: Start difference. First operand 46 states and 47 transitions. Second operand 21 states. [2018-11-23 11:08:10,479 WARN L180 SmtUtils]: Spent 309.00 ms on a formula simplification. DAG size of input: 44 DAG size of output: 32 [2018-11-23 11:08:12,969 WARN L180 SmtUtils]: Spent 299.00 ms on a formula simplification. DAG size of input: 44 DAG size of output: 33 [2018-11-23 11:08:14,887 WARN L180 SmtUtils]: Spent 199.00 ms on a formula simplification. DAG size of input: 39 DAG size of output: 29 [2018-11-23 11:08:16,832 WARN L180 SmtUtils]: Spent 259.00 ms on a formula simplification. DAG size of input: 39 DAG size of output: 30 [2018-11-23 11:08:18,150 WARN L180 SmtUtils]: Spent 142.00 ms on a formula simplification. DAG size of input: 34 DAG size of output: 26 [2018-11-23 11:08:19,483 WARN L180 SmtUtils]: Spent 167.00 ms on a formula simplification. DAG size of input: 34 DAG size of output: 27 [2018-11-23 11:08:20,356 WARN L180 SmtUtils]: Spent 104.00 ms on a formula simplification. DAG size of input: 29 DAG size of output: 23 [2018-11-23 11:08:21,187 WARN L180 SmtUtils]: Spent 121.00 ms on a formula simplification. DAG size of input: 29 DAG size of output: 24 [2018-11-23 11:08:22,338 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:08:22,338 INFO L93 Difference]: Finished difference Result 65 states and 71 transitions. [2018-11-23 11:08:22,338 INFO L142 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 25 states. [2018-11-23 11:08:22,338 INFO L78 Accepts]: Start accepts. Automaton has 21 states. Word has length 45 [2018-11-23 11:08:22,339 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2018-11-23 11:08:22,339 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 21 states. [2018-11-23 11:08:22,341 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 25 states to 25 states and 53 transitions. [2018-11-23 11:08:22,341 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 21 states. [2018-11-23 11:08:22,344 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 25 states to 25 states and 53 transitions. [2018-11-23 11:08:22,344 INFO L86 InductivityCheck]: Starting indutivity check of a Floyd-Hoare automaton with 25 states and 53 transitions. [2018-11-23 11:08:24,041 INFO L119 InductivityCheck]: Floyd-Hoare automaton has 53 edges. 53 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. [2018-11-23 11:08:24,043 INFO L225 Difference]: With dead ends: 65 [2018-11-23 11:08:24,043 INFO L226 Difference]: Without dead ends: 58 [2018-11-23 11:08:24,044 INFO L631 BasicCegarLoop]: 0 DeclaredPredicates, 111 GetRequests, 70 SyntacticMatches, 0 SemanticMatches, 41 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 337 ImplicationChecksByTransitivity, 18.0s TimeCoverageRelationStatistics Valid=407, Invalid=1399, Unknown=0, NotChecked=0, Total=1806 [2018-11-23 11:08:24,044 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 58 states. [2018-11-23 11:08:24,212 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 58 to 58. [2018-11-23 11:08:24,212 INFO L214 AbstractMinimizeNwa]: Start testing correctness of minimizeSevpa [2018-11-23 11:08:24,212 INFO L82 GeneralOperation]: Start isEquivalent. First operand 58 states. Second operand 58 states. [2018-11-23 11:08:24,213 INFO L74 IsIncluded]: Start isIncluded. First operand 58 states. Second operand 58 states. [2018-11-23 11:08:24,213 INFO L87 Difference]: Start difference. First operand 58 states. Second operand 58 states. [2018-11-23 11:08:24,215 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:08:24,216 INFO L93 Difference]: Finished difference Result 58 states and 59 transitions. [2018-11-23 11:08:24,216 INFO L276 IsEmpty]: Start isEmpty. Operand 58 states and 59 transitions. [2018-11-23 11:08:24,217 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:08:24,217 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:08:24,217 INFO L74 IsIncluded]: Start isIncluded. First operand 58 states. Second operand 58 states. [2018-11-23 11:08:24,217 INFO L87 Difference]: Start difference. First operand 58 states. Second operand 58 states. [2018-11-23 11:08:24,219 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2018-11-23 11:08:24,219 INFO L93 Difference]: Finished difference Result 58 states and 59 transitions. [2018-11-23 11:08:24,219 INFO L276 IsEmpty]: Start isEmpty. Operand 58 states and 59 transitions. [2018-11-23 11:08:24,220 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-11-23 11:08:24,220 INFO L83 IsIncluded]: Finished isIncluded. Language is included [2018-11-23 11:08:24,220 INFO L88 GeneralOperation]: Finished isEquivalent. [2018-11-23 11:08:24,220 INFO L221 AbstractMinimizeNwa]: Finished testing correctness of minimizeSevpa [2018-11-23 11:08:24,220 INFO L82 GeneralOperation]: Start removeUnreachable. Operand 58 states. [2018-11-23 11:08:24,222 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 58 states to 58 states and 59 transitions. [2018-11-23 11:08:24,223 INFO L78 Accepts]: Start accepts. Automaton has 58 states and 59 transitions. Word has length 45 [2018-11-23 11:08:24,223 INFO L84 Accepts]: Finished accepts. word is rejected. [2018-11-23 11:08:24,223 INFO L480 AbstractCegarLoop]: Abstraction has 58 states and 59 transitions. [2018-11-23 11:08:24,223 INFO L481 AbstractCegarLoop]: Interpolant automaton has 21 states. [2018-11-23 11:08:24,223 INFO L276 IsEmpty]: Start isEmpty. Operand 58 states and 59 transitions. [2018-11-23 11:08:24,224 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 58 [2018-11-23 11:08:24,225 INFO L394 BasicCegarLoop]: Found error trace [2018-11-23 11:08:24,225 INFO L402 BasicCegarLoop]: trace histogram [11, 10, 10, 10, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2018-11-23 11:08:24,225 INFO L423 AbstractCegarLoop]: === Iteration 8 === [mainErr0ASSERT_VIOLATIONERROR_FUNCTION]=== [2018-11-23 11:08:24,225 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 11:08:24,225 INFO L82 PathProgramCache]: Analyzing trace with hash -863334323, now seen corresponding path program 4 times [2018-11-23 11:08:24,226 INFO L223 ckRefinementStrategy]: Switched to mode CVC4_FPBP [2018-11-23 11:08:24,226 INFO L69 tionRefinementEngine]: Using refinement strategy WolfRefinementStrategy No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/cvc4nyu Starting monitored process 9 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk (exit command is (exit), workingDir is null) Waiting until toolchain timeout for monitored process 9 with cvc4nyu --tear-down-incremental --print-success --lang smt --rewrite-divk [2018-11-23 11:08:24,249 INFO L101 rtionOrderModulation]: Changing assertion order to TERMS_WITH_SMALL_CONSTANTS_FIRST [2018-11-23 11:08:31,280 INFO L249 tOrderPrioritization]: Assert order TERMS_WITH_SMALL_CONSTANTS_FIRST issued 0 check-sat command(s) [2018-11-23 11:08:31,281 INFO L250 tOrderPrioritization]: Conjunction of SSA is sat [2018-11-23 11:08:35,274 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-11-23 11:08:36,034 INFO L469 BasicCegarLoop]: Counterexample might be feasible ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder.RCFGBacktranslator [?] CALL call ULTIMATE.init(); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] assume true; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] RET #57#return; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32)] [?] CALL call #t~ret13 := main(); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32)] [?] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv1 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv1 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv2 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv2 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv3 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv3 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv4 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv4 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv5 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv5 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv6 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv6 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv7 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv7 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv8 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv8 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv9 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv9 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !~bvslt32(~j~0, 10bv32); VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem7.base|=(_ bv2290649224 32), |main_#t~mem7.offset|=(_ bv40 32), |main_#t~mem8|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; VAL [main_~i~0=(_ bv2146435062 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435062 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435063 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435063 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435064 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435064 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435065 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435065 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435066 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435066 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435067 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435067 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435068 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435068 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435069 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435069 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435070 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435070 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435071 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435071 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32)] [?] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; VAL [check_~i=(_ bv2146435072 32), check_~pc.base=(_ bv4294967295 32), check_~pc.offset=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32), |check_#res|=(_ bv0 32)] [?] assume true; VAL [check_~i=(_ bv2146435072 32), check_~pc.base=(_ bv4294967295 32), check_~pc.offset=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32), |check_#res|=(_ bv0 32)] [?] RET #61#return; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~ret12|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume 0bv32 == #t~ret12;havoc #t~ret12; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !false; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] CALL call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32; [?] #valid := #valid[0bv32 := 0bv1]; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] ensures true; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [L19] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32); [L20] call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0.base, ~pa~0.offset; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] assume !~bvslt32(~j~0, 10bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29-L41] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32); [L30] call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] ~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset); [L31] havoc #t~mem6.base, #t~mem6.offset; [L32] call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L32] call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem7.base=2290649224bv32, #t~mem7.offset=40bv32, #t~mem8=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L32-L40] assume ~bvsgt32(#t~mem8, 0bv32); [L32] havoc #t~mem8; [L32] havoc #t~mem7.base, #t~mem7.offset; [L33] call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32] [L12-L15] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset; [L12-L15] ~i := #in~i; [L14] call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32); [L14] call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0.base, #t~mem0.offset; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L12-L15] ensures true; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~ret12=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37-L39] assume 0bv32 == #t~ret12; [L37] havoc #t~ret12; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L45] assert false; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.preprocessor.BoogiePreprocessorBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32; [?] #valid := #valid[0bv32 := 0bv1]; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] ensures true; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [L19] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32); [L20] call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0.base, ~pa~0.offset; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] assume !~bvslt32(~j~0, 10bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29-L41] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32); [L30] call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] ~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset); [L31] havoc #t~mem6.base, #t~mem6.offset; [L32] call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L32] call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem7.base=2290649224bv32, #t~mem7.offset=40bv32, #t~mem8=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L32-L40] assume ~bvsgt32(#t~mem8, 0bv32); [L32] havoc #t~mem8; [L32] havoc #t~mem7.base, #t~mem7.offset; [L33] call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32] [L12-L15] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset; [L12-L15] ~i := #in~i; [L14] call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32); [L14] call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0.base, #t~mem0.offset; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L12-L15] ensures true; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~ret12=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37-L39] assume 0bv32 == #t~ret12; [L37] havoc #t~ret12; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L45] assert false; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.procedureinliner.backtranslation.InlinerBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.CACSL2BoogieBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L19] struct cont cont; [L20] struct dummy array[10]; [L21] int i, *pa; [L22] i = __VERIFIER_nondet_int() [L24] int j = 0; VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=0] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=1] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=2] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=3] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=4] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=5] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=6] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=7] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=8] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=9] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L24] COND FALSE !(j < 10) VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L29] COND TRUE i >= 0 && i < 9 [L30] cont.array = &array[i] [L31] EXPR cont.array [L31] pa = &cont.array[0].b [L32] EXPR cont.array [L32] EXPR cont.array[0].b VAL [array={-2004318072:0}, cont={-1:0}, cont.array={-2004318072:40}, cont.array[0].b=2146435072, i=5, j=10, pa={-2004318072:44}] [L32] COND TRUE cont.array[0].b > 0 [L33] EXPR array[i].b [L33] i = array[i].b - 10 [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435062, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] COND FALSE !(i < *pa) [L37] CALL, EXPR check(&cont, i) VAL [\old(i)=2146435072, pc={-1:0}] [L14] EXPR pc->array [L14] EXPR pc->array[1].b [L14] return pc->array[1].b == i; [L37] RET, EXPR check(&cont, i) VAL [array={-2004318072:0}, check(&cont, i)=0, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L37] COND TRUE !check(&cont, i) [L45] __VERIFIER_error() VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] ----- [2018-11-23 11:08:36,181 WARN L170 areAnnotationChecker]: ULTIMATE.initENTRY has no Hoare annotation [2018-11-23 11:08:36,181 WARN L170 areAnnotationChecker]: ULTIMATE.startENTRY has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: ULTIMATE.startENTRY has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: mainENTRY has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: checkENTRY has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: ULTIMATE.initFINAL has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: L-1 has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: L-1 has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: L24-3 has no Hoare annotation [2018-11-23 11:08:36,182 WARN L170 areAnnotationChecker]: L24-3 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L24-3 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: checkFINAL has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: ULTIMATE.initEXIT has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: ULTIMATE.startFINAL has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L24-4 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L24-4 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L24-2 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: checkEXIT has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L32 has no Hoare annotation [2018-11-23 11:08:36,183 WARN L170 areAnnotationChecker]: L32 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L29 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L37 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L37 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L34-3 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L34-3 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: mainFINAL has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L38 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L38 has no Hoare annotation [2018-11-23 11:08:36,184 WARN L170 areAnnotationChecker]: L34-4 has no Hoare annotation [2018-11-23 11:08:36,185 WARN L170 areAnnotationChecker]: L34-4 has no Hoare annotation [2018-11-23 11:08:36,185 WARN L170 areAnnotationChecker]: L34-1 has no Hoare annotation [2018-11-23 11:08:36,185 WARN L170 areAnnotationChecker]: L34-1 has no Hoare annotation [2018-11-23 11:08:36,185 WARN L170 areAnnotationChecker]: mainEXIT has no Hoare annotation [2018-11-23 11:08:36,185 INFO L163 areAnnotationChecker]: CFG has 0 edges. 0 inductive. 0 not inductive. 0 times theorem prover too weak to decide inductivity. 0 times interpolants missing. [2018-11-23 11:08:36,187 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction CFG 23.11 11:08:36 BoogieIcfgContainer [2018-11-23 11:08:36,188 INFO L132 PluginConnector]: ------------------------ END TraceAbstraction---------------------------- [2018-11-23 11:08:36,188 INFO L113 PluginConnector]: ------------------------Witness Printer---------------------------- [2018-11-23 11:08:36,188 INFO L271 PluginConnector]: Initializing Witness Printer... [2018-11-23 11:08:36,188 INFO L276 PluginConnector]: Witness Printer initialized [2018-11-23 11:08:36,189 INFO L185 PluginConnector]: Executing the observer RCFGCatcher from plugin Witness Printer for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 23.11 11:07:07" (3/4) ... [2018-11-23 11:08:36,192 INFO L138 WitnessPrinter]: Generating witness for reachability counterexample ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder.RCFGBacktranslator [?] CALL call ULTIMATE.init(); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32;#valid := #valid[0bv32 := 0bv1]; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] assume true; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |old(#NULL.base)|=(_ bv0 32), |old(#NULL.offset)|=(_ bv0 32)] [?] RET #57#return; VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32)] [?] CALL call #t~ret13 := main(); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32)] [?] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32);call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32);havoc ~i~0;havoc ~pa~0.base, ~pa~0.offset;~i~0 := #t~nondet2;havoc #t~nondet2;~j~0 := 0bv32; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv1 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv1 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv2 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv2 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv3 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv3 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv4 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv4 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv5 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv5 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv6 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv6 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv7 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv7 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv8 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv8 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv9 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~j~0, 10bv32);call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32);havoc #t~nondet4;call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32);havoc #t~nondet5; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv9 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] #t~post3 := ~j~0;~j~0 := ~bvadd32(1bv32, #t~post3);havoc #t~post3; VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !~bvslt32(~j~0, 10bv32); VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32);call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset);havoc #t~mem6.base, #t~mem6.offset;call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32);call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [main_~i~0=(_ bv5 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem7.base|=(_ bv2290649224 32), |main_#t~mem7.offset|=(_ bv40 32), |main_#t~mem8|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume ~bvsgt32(#t~mem8, 0bv32);havoc #t~mem8;havoc #t~mem7.base, #t~mem7.offset;call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32);~i~0 := ~bvsub32(#t~mem9, 10bv32);havoc #t~mem9; VAL [main_~i~0=(_ bv2146435062 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435062 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435063 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435063 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435064 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435064 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435065 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435065 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435066 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435066 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435067 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435067 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435068 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435068 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435069 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435069 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435070 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435070 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435071 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435071 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !!~bvslt32(~i~0, #t~mem10);havoc #t~mem10;#t~pre11 := ~bvadd32(1bv32, ~i~0);~i~0 := ~bvadd32(1bv32, ~i~0);havoc #t~pre11; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~mem10|=(_ bv2146435072 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !~bvslt32(~i~0, #t~mem10);havoc #t~mem10; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [|#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32)] [?] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset;~i := #in~i;call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32);call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32);#res := (if #t~mem1 == ~i then 1bv32 else 0bv32);havoc #t~mem0.base, #t~mem0.offset;havoc #t~mem1; VAL [check_~i=(_ bv2146435072 32), check_~pc.base=(_ bv4294967295 32), check_~pc.offset=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32), |check_#res|=(_ bv0 32)] [?] assume true; VAL [check_~i=(_ bv2146435072 32), check_~pc.base=(_ bv4294967295 32), check_~pc.offset=(_ bv0 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |check_#in~i|=(_ bv2146435072 32), |check_#in~pc.base|=(_ bv4294967295 32), |check_#in~pc.offset|=(_ bv0 32), |check_#res|=(_ bv0 32)] [?] RET #61#return; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_#t~ret12|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume 0bv32 == #t~ret12;havoc #t~ret12; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] assume !false; VAL [main_~i~0=(_ bv2146435072 32), main_~j~0=(_ bv10 32), main_~pa~0.base=(_ bv2290649224 32), main_~pa~0.offset=(_ bv44 32), |#NULL.base|=(_ bv0 32), |#NULL.offset|=(_ bv0 32), |main_~#array~0.base|=(_ bv2290649224 32), |main_~#array~0.offset|=(_ bv0 32), |main_~#cont~0.base|=(_ bv4294967295 32), |main_~#cont~0.offset|=(_ bv0 32)] [?] CALL call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32; [?] #valid := #valid[0bv32 := 0bv1]; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] ensures true; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [L19] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32); [L20] call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0.base, ~pa~0.offset; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] assume !~bvslt32(~j~0, 10bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29-L41] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32); [L30] call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] ~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset); [L31] havoc #t~mem6.base, #t~mem6.offset; [L32] call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L32] call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem7.base=2290649224bv32, #t~mem7.offset=40bv32, #t~mem8=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L32-L40] assume ~bvsgt32(#t~mem8, 0bv32); [L32] havoc #t~mem8; [L32] havoc #t~mem7.base, #t~mem7.offset; [L33] call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32] [L12-L15] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset; [L12-L15] ~i := #in~i; [L14] call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32); [L14] call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0.base, #t~mem0.offset; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L12-L15] ensures true; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~ret12=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37-L39] assume 0bv32 == #t~ret12; [L37] havoc #t~ret12; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L45] assert false; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.preprocessor.BoogiePreprocessorBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] #NULL.base, #NULL.offset := 0bv32, 0bv32; [?] #valid := #valid[0bv32 := 0bv1]; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] ensures true; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, old(#NULL.base)=0bv32, old(#NULL.offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL.base=0bv32, #NULL.offset=0bv32] [L19] call ~#cont~0.base, ~#cont~0.offset := #Ultimate.alloc(4bv32); [L20] call ~#array~0.base, ~#array~0.offset := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0.base, ~pa~0.offset; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] assume !!~bvslt32(~j~0, 10bv32); [L25] call write~intINTTYPE4(#t~nondet4, ~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0)), 4bv32); [L25] havoc #t~nondet4; [L26] call write~intINTTYPE4(#t~nondet5, ~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~j~0))), 4bv32); [L26] havoc #t~nondet5; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] assume !~bvslt32(~j~0, 10bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29-L41] assume ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32); [L30] call write~$Pointer$(~#array~0.base, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0)), ~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] call #t~mem6.base, #t~mem6.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L31] ~pa~0.base, ~pa~0.offset := #t~mem6.base, ~bvadd32(4bv32, #t~mem6.offset); [L31] havoc #t~mem6.base, #t~mem6.offset; [L32] call #t~mem7.base, #t~mem7.offset := read~$Pointer$(~#cont~0.base, ~#cont~0.offset, 4bv32); [L32] call #t~mem8 := read~intINTTYPE4(#t~mem7.base, ~bvadd32(4bv32, #t~mem7.offset), 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem7.base=2290649224bv32, #t~mem7.offset=40bv32, #t~mem8=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L32-L40] assume ~bvsgt32(#t~mem8, 0bv32); [L32] havoc #t~mem8; [L32] havoc #t~mem7.base, #t~mem7.offset; [L33] call #t~mem9 := read~intINTTYPE4(~#array~0.base, ~bvadd32(4bv32, ~bvadd32(~#array~0.offset, ~bvmul32(8bv32, ~i~0))), 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !!~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34] call #t~mem10 := read~intINTTYPE4(~pa~0.base, ~pa~0.offset, 4bv32); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~mem10=2146435072bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L34-L36] assume !~bvslt32(~i~0, #t~mem10); [L34] havoc #t~mem10; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32] [L12-L15] ~pc.base, ~pc.offset := #in~pc.base, #in~pc.offset; [L12-L15] ~i := #in~i; [L14] call #t~mem0.base, #t~mem0.offset := read~$Pointer$(~pc.base, ~pc.offset, 4bv32); [L14] call #t~mem1 := read~intINTTYPE4(#t~mem0.base, ~bvadd32(12bv32, #t~mem0.offset), 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0.base, #t~mem0.offset; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L12-L15] ensures true; VAL [#in~i=2146435072bv32, #in~pc.base=4294967295bv32, #in~pc.offset=0bv32, #NULL.base=0bv32, #NULL.offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc.base=4294967295bv32, ~pc.offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0.base, ~#cont~0.offset, ~i~0); VAL [#NULL.base=0bv32, #NULL.offset=0bv32, #t~ret12=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L37-L39] assume 0bv32 == #t~ret12; [L37] havoc #t~ret12; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [L45] assert false; VAL [#NULL.base=0bv32, #NULL.offset=0bv32, ~#array~0.base=2290649224bv32, ~#array~0.offset=0bv32, ~#cont~0.base=4294967295bv32, ~#cont~0.offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0.base=2290649224bv32, ~pa~0.offset=44bv32] [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.procedureinliner.backtranslation.InlinerBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] ----- ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.CACSL2BoogieBacktranslator [?] CALL call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] #NULL := { base: 0bv32, offset: 0bv32 }; [?] #valid[0bv32] := 0bv1; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, old(#NULL!base)=0bv32, old(#NULL!offset)=0bv32] [?] RET call ULTIMATE.init(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [?] CALL call #t~ret13 := main(); VAL [#NULL!base=0bv32, #NULL!offset=0bv32] [L19] FCALL call ~#cont~0 := #Ultimate.alloc(4bv32); [L20] FCALL call ~#array~0 := #Ultimate.alloc(80bv32); [L21] havoc ~i~0; [L21] havoc ~pa~0; [L22] ~i~0 := #t~nondet2; [L22] havoc #t~nondet2; [L24] ~j~0 := 0bv32; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=0bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=1bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=2bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=3bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=4bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=5bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=6bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=7bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=8bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24-L27] COND FALSE !(!~bvslt32(~j~0, 10bv32)) [L25] FCALL call write~intINTTYPE4(#t~nondet4, { base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0)) }, 4bv32); [L25] havoc #t~nondet4; [L26] FCALL call write~intINTTYPE4(#t~nondet5, { base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~j~0))) }, 4bv32); [L26] havoc #t~nondet5; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=9bv32] [L24] #t~post3 := ~j~0; [L24] ~j~0 := ~bvadd32(1bv32, #t~post3); [L24] havoc #t~post3; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L24-L27] COND TRUE !~bvslt32(~j~0, 10bv32) VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32] [L29] COND TRUE ~bvsge32(~i~0, 0bv32) && ~bvslt32(~i~0, 9bv32) [L30] FCALL call write~$Pointer$({ base: ~#array~0!base, offset: ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0)) }, { base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] FCALL call #t~mem6 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L31] ~pa~0 := { base: #t~mem6!base, offset: ~bvadd32(4bv32, #t~mem6!offset) }; [L31] havoc #t~mem6; [L32] FCALL call #t~mem7 := read~$Pointer$({ base: ~#cont~0!base, offset: ~#cont~0!offset }, 4bv32); [L32] FCALL call #t~mem8 := read~intINTTYPE4({ base: #t~mem7!base, offset: ~bvadd32(4bv32, #t~mem7!offset) }, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem7!base=2290649224bv32, #t~mem7!offset=40bv32, #t~mem8=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=5bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L32] COND TRUE ~bvsgt32(#t~mem8, 0bv32) [L32] havoc #t~mem8; [L32] havoc #t~mem7; [L33] FCALL call #t~mem9 := read~intINTTYPE4({ base: ~#array~0!base, offset: ~bvadd32(4bv32, ~bvadd32(~#array~0!offset, ~bvmul32(8bv32, ~i~0))) }, 4bv32); [L33] ~i~0 := ~bvsub32(#t~mem9, 10bv32); [L33] havoc #t~mem9; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435062bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435063bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435064bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435065bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435066bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435067bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435068bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435069bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435070bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435071bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND FALSE !(!~bvslt32(~i~0, #t~mem10)) [L34] havoc #t~mem10; [L35] #t~pre11 := ~bvadd32(1bv32, ~i~0); [L35] ~i~0 := ~bvadd32(1bv32, ~i~0); [L35] havoc #t~pre11; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34] FCALL call #t~mem10 := read~intINTTYPE4(~pa~0, 4bv32); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~mem10=2146435072bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L34-L36] COND TRUE !~bvslt32(~i~0, #t~mem10) [L34] havoc #t~mem10; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] CALL call #t~ret12 := check(~#cont~0, ~i~0); VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32] [L12-L15] ~pc := #in~pc; [L12-L15] ~i := #in~i; [L14] FCALL call #t~mem0 := read~$Pointer$({ base: ~pc!base, offset: ~pc!offset }, 4bv32); [L14] FCALL call #t~mem1 := read~intINTTYPE4({ base: #t~mem0!base, offset: ~bvadd32(12bv32, #t~mem0!offset) }, 4bv32); [L14] #res := (if #t~mem1 == ~i then 1bv32 else 0bv32); [L14] havoc #t~mem0; [L14] havoc #t~mem1; VAL [#in~i=2146435072bv32, #in~pc!base=4294967295bv32, #in~pc!offset=0bv32, #NULL!base=0bv32, #NULL!offset=0bv32, #res=0bv32, ~i=2146435072bv32, ~pc!base=4294967295bv32, ~pc!offset=0bv32] [L37] RET call #t~ret12 := check(~#cont~0, ~i~0); VAL [#NULL!base=0bv32, #NULL!offset=0bv32, #t~ret12=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L37] COND TRUE 0bv32 == #t~ret12 [L37] havoc #t~ret12; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L45] assert false; VAL [#NULL!base=0bv32, #NULL!offset=0bv32, ~#array~0!base=2290649224bv32, ~#array~0!offset=0bv32, ~#cont~0!base=4294967295bv32, ~#cont~0!offset=0bv32, ~i~0=2146435072bv32, ~j~0=10bv32, ~pa~0!base=2290649224bv32, ~pa~0!offset=44bv32] [L19] struct cont cont; [L20] struct dummy array[10]; [L21] int i, *pa; [L22] i = __VERIFIER_nondet_int() [L24] int j = 0; VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=0] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=1] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=2] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=3] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=4] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=5] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=6] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=7] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=8] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=9] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L24] COND FALSE !(j < 10) VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L29] COND TRUE i >= 0 && i < 9 [L30] cont.array = &array[i] [L31] EXPR cont.array [L31] pa = &cont.array[0].b [L32] EXPR cont.array [L32] EXPR cont.array[0].b VAL [array={-2004318072:0}, cont={-1:0}, cont.array={-2004318072:40}, cont.array[0].b=2146435072, i=5, j=10, pa={-2004318072:44}] [L32] COND TRUE cont.array[0].b > 0 [L33] EXPR array[i].b [L33] i = array[i].b - 10 [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435062, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] COND FALSE !(i < *pa) [L37] CALL, EXPR check(&cont, i) VAL [\old(i)=2146435072, pc={-1:0}] [L14] EXPR pc->array [L14] EXPR pc->array[1].b [L14] return pc->array[1].b == i; [L37] RET, EXPR check(&cont, i) VAL [array={-2004318072:0}, check(&cont, i)=0, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L37] COND TRUE !check(&cont, i) [L45] __VERIFIER_error() VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] ----- [2018-11-23 11:08:36,298 INFO L145 WitnessManager]: Wrote witness to /storage/repos/svcomp/c/ldv-regression/test25_false-unreach-call_true-termination.c-witness.graphml [2018-11-23 11:08:36,298 INFO L132 PluginConnector]: ------------------------ END Witness Printer---------------------------- [2018-11-23 11:08:36,299 INFO L168 Benchmark]: Toolchain (without parser) took 90099.10 ms. Allocated memory was 1.5 GB in the beginning and 2.5 GB in the end (delta: 974.7 MB). Free memory was 1.4 GB in the beginning and 2.1 GB in the end (delta: -716.6 MB). Peak memory consumption was 258.1 MB. Max. memory is 7.1 GB. [2018-11-23 11:08:36,300 INFO L168 Benchmark]: CDTParser took 0.19 ms. Allocated memory is still 1.5 GB. Free memory is still 1.5 GB. There was no memory consumed. Max. memory is 7.1 GB. [2018-11-23 11:08:36,300 INFO L168 Benchmark]: CACSL2BoogieTranslator took 440.79 ms. Allocated memory is still 1.5 GB. Free memory was 1.4 GB in the beginning and 1.4 GB in the end (delta: 10.6 MB). Peak memory consumption was 10.6 MB. Max. memory is 7.1 GB. [2018-11-23 11:08:36,301 INFO L168 Benchmark]: Boogie Procedure Inliner took 30.29 ms. Allocated memory is still 1.5 GB. Free memory is still 1.4 GB. There was no memory consumed. Max. memory is 7.1 GB. [2018-11-23 11:08:36,301 INFO L168 Benchmark]: Boogie Preprocessor took 48.72 ms. Allocated memory is still 1.5 GB. Free memory is still 1.4 GB. There was no memory consumed. Max. memory is 7.1 GB. [2018-11-23 11:08:36,301 INFO L168 Benchmark]: RCFGBuilder took 858.09 ms. Allocated memory was 1.5 GB in the beginning and 2.3 GB in the end (delta: 739.2 MB). Free memory was 1.4 GB in the beginning and 2.2 GB in the end (delta: -782.8 MB). Peak memory consumption was 15.2 MB. Max. memory is 7.1 GB. [2018-11-23 11:08:36,302 INFO L168 Benchmark]: TraceAbstraction took 88605.34 ms. Allocated memory was 2.3 GB in the beginning and 2.5 GB in the end (delta: 235.4 MB). Free memory was 2.2 GB in the beginning and 2.2 GB in the end (delta: 39.2 MB). Peak memory consumption was 274.6 MB. Max. memory is 7.1 GB. [2018-11-23 11:08:36,302 INFO L168 Benchmark]: Witness Printer took 109.87 ms. Allocated memory is still 2.5 GB. Free memory was 2.2 GB in the beginning and 2.1 GB in the end (delta: 16.5 MB). Peak memory consumption was 16.5 MB. Max. memory is 7.1 GB. [2018-11-23 11:08:36,304 INFO L336 ainManager$Toolchain]: ####################### End [Toolchain 1] ####################### --- Results --- * Results from de.uni_freiburg.informatik.ultimate.core: - GenericResult: Assertions are enabled Assertions are enabled - StatisticsResult: Toolchain Benchmarks Benchmark results are: * CDTParser took 0.19 ms. Allocated memory is still 1.5 GB. Free memory is still 1.5 GB. There was no memory consumed. Max. memory is 7.1 GB. * CACSL2BoogieTranslator took 440.79 ms. Allocated memory is still 1.5 GB. Free memory was 1.4 GB in the beginning and 1.4 GB in the end (delta: 10.6 MB). Peak memory consumption was 10.6 MB. Max. memory is 7.1 GB. * Boogie Procedure Inliner took 30.29 ms. Allocated memory is still 1.5 GB. Free memory is still 1.4 GB. There was no memory consumed. Max. memory is 7.1 GB. * Boogie Preprocessor took 48.72 ms. Allocated memory is still 1.5 GB. Free memory is still 1.4 GB. There was no memory consumed. Max. memory is 7.1 GB. * RCFGBuilder took 858.09 ms. Allocated memory was 1.5 GB in the beginning and 2.3 GB in the end (delta: 739.2 MB). Free memory was 1.4 GB in the beginning and 2.2 GB in the end (delta: -782.8 MB). Peak memory consumption was 15.2 MB. Max. memory is 7.1 GB. * TraceAbstraction took 88605.34 ms. Allocated memory was 2.3 GB in the beginning and 2.5 GB in the end (delta: 235.4 MB). Free memory was 2.2 GB in the beginning and 2.2 GB in the end (delta: 39.2 MB). Peak memory consumption was 274.6 MB. Max. memory is 7.1 GB. * Witness Printer took 109.87 ms. Allocated memory is still 2.5 GB. Free memory was 2.2 GB in the beginning and 2.1 GB in the end (delta: 16.5 MB). Peak memory consumption was 16.5 MB. Max. memory is 7.1 GB. * Results from de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction: - CounterExampleResult [Line: 45]: a call of __VERIFIER_error() is reachable a call of __VERIFIER_error() is reachable We found a FailurePath: [L19] struct cont cont; [L20] struct dummy array[10]; [L21] int i, *pa; [L22] i = __VERIFIER_nondet_int() [L24] int j = 0; VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=0] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=1] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=2] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=3] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=4] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=5] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=6] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=7] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=8] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=9] [L24] COND TRUE j < 10 [L25] array[j].a = __VERIFIER_nondet_int() [L26] array[j].b = __VERIFIER_nondet_int() [L24] j++ VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L24] COND FALSE !(j < 10) VAL [array={-2004318072:0}, cont={-1:0}, i=5, j=10] [L29] COND TRUE i >= 0 && i < 9 [L30] cont.array = &array[i] [L31] EXPR cont.array [L31] pa = &cont.array[0].b [L32] EXPR cont.array [L32] EXPR cont.array[0].b VAL [array={-2004318072:0}, cont={-1:0}, cont.array={-2004318072:40}, cont.array[0].b=2146435072, i=5, j=10, pa={-2004318072:44}] [L32] COND TRUE cont.array[0].b > 0 [L33] EXPR array[i].b [L33] i = array[i].b - 10 [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435062, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435063, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435064, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435065, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435066, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435067, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435068, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435069, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435070, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435071, j=10, pa={-2004318072:44}] [L34] COND TRUE i < *pa [L35] ++i VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] EXPR \read(*pa) VAL [\read(*pa)=2146435072, array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L34] COND FALSE !(i < *pa) [L37] CALL, EXPR check(&cont, i) VAL [\old(i)=2146435072, pc={-1:0}] [L14] EXPR pc->array [L14] EXPR pc->array[1].b [L14] return pc->array[1].b == i; [L37] RET, EXPR check(&cont, i) VAL [array={-2004318072:0}, check(&cont, i)=0, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] [L37] COND TRUE !check(&cont, i) [L45] __VERIFIER_error() VAL [array={-2004318072:0}, cont={-1:0}, i=2146435072, j=10, pa={-2004318072:44}] - StatisticsResult: Ultimate Automizer benchmark data CFG has 4 procedures, 24 locations, 1 error locations. UNSAFE Result, 88.5s OverallTime, 8 OverallIterations, 11 TraceHistogramMax, 44.6s AutomataDifference, 0.0s DeadEndRemovalTime, 0.0s HoareAnnotationTime, HoareTripleCheckerStatistics: 123 SDtfs, 91 SDslu, 469 SDs, 0 SdLazy, 787 SolverSat, 59 SolverUnsat, 0 SolverUnknown, 0 SolverNotchecked, 10.9s Time, PredicateUnifierStatistics: 0 DeclaredPredicates, 349 GetRequests, 252 SyntacticMatches, 0 SemanticMatches, 97 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 416 ImplicationChecksByTransitivity, 22.0s Time, 0.0s BasicInterpolantAutomatonTime, BiggestAbstraction: size=58occurred in iteration=7, traceCheckStatistics: No data available, InterpolantConsolidationStatistics: No data available, PathInvariantsStatistics: No data available, 0/0 InterpolantCoveringCapability, TotalInterpolationStatistics: No data available, 0.0s AbstIntTime, 0 AbstIntIterations, 0 AbstIntStrong, NaN AbsIntWeakeningRatio, NaN AbsIntAvgWeakeningVarsNumRemoved, NaN AbsIntAvgWeakenedConjuncts, 0.0s DumpTime, AutomataMinimizationStatistics: 0.5s AutomataMinimizationTime, 7 MinimizatonAttempts, 2 StatesRemovedByMinimization, 2 NontrivialMinimizations, HoareAnnotationStatistics: No data available, RefinementEngineStatistics: TraceCheckStatistics: 0.1s SsaConstructionTime, 10.8s SatisfiabilityAnalysisTime, 21.1s InterpolantComputationTime, 245 NumberOfCodeBlocks, 225 NumberOfCodeBlocksAsserted, 14 NumberOfCheckSat, 307 ConstructedInterpolants, 13 QuantifiedInterpolants, 65261 SizeOfPredicates, 50 NumberOfNonLiveVariables, 591 ConjunctsInSsa, 94 ConjunctsInUnsatCore, 11 InterpolantComputations, 3 PerfectInterpolantSequences, 320/498 InterpolantCoveringCapability, InvariantSynthesisStatistics: No data available, InterpolantConsolidationStatistics: No data available, ReuseStatistics: No data available RESULT: Ultimate proved your program to be incorrect! Received shutdown request...