./Ultimate.py --spec ../../sv-benchmarks/c/properties/unreach-call.prp --file ../../sv-benchmarks/c/loops/insertion_sort_false-unreach-call_true-termination.i --full-output --architecture 32bit -------------------------------------------------------------------------------- Checking for ERROR reachability Using default analysis Version aa418289 Calling Ultimate with: java -Dosgi.configuration.area=/tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/data/config -Xmx12G -Xms1G -jar /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/plugins/org.eclipse.equinox.launcher_1.3.100.v20150511-1540.jar -data @noDefault -ultimatedata /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/data -tc /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/config/KojakReach.xml -i ../../sv-benchmarks/c/loops/insertion_sort_false-unreach-call_true-termination.i -s /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Default.epf --cacsl2boogietranslator.entry.function main --witnessprinter.witness.directory /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak --witnessprinter.witness.filename witness.graphml --witnessprinter.write.witness.besides.input.file false --witnessprinter.graph.data.specification CHECK( init(main()), LTL(G ! call(__VERIFIER_error())) ) --witnessprinter.graph.data.producer Kojak --witnessprinter.graph.data.architecture 32bit --witnessprinter.graph.data.programhash 9722a10940ebd7a5d75170225a40cd37454d0528 ............................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................ Execution finished normally Writing output log to file Ultimate.log Writing human readable error path to file UltimateCounterExample.errorpath Result: FALSE --- Real Ultimate output --- This is Ultimate 0.1.23-aa41828 [2018-11-23 09:13:10,907 INFO L170 SettingsManager]: Resetting all preferences to default values... [2018-11-23 09:13:10,908 INFO L174 SettingsManager]: Resetting UltimateCore preferences to default values [2018-11-23 09:13:10,919 INFO L177 SettingsManager]: Ultimate Commandline Interface provides no preferences, ignoring... [2018-11-23 09:13:10,919 INFO L174 SettingsManager]: Resetting Boogie Preprocessor preferences to default values [2018-11-23 09:13:10,920 INFO L174 SettingsManager]: Resetting Boogie Procedure Inliner preferences to default values [2018-11-23 09:13:10,921 INFO L174 SettingsManager]: Resetting Abstract Interpretation preferences to default values [2018-11-23 09:13:10,922 INFO L174 SettingsManager]: Resetting LassoRanker preferences to default values [2018-11-23 09:13:10,924 INFO L174 SettingsManager]: Resetting Reaching Definitions preferences to default values [2018-11-23 09:13:10,924 INFO L174 SettingsManager]: Resetting SyntaxChecker preferences to default values [2018-11-23 09:13:10,925 INFO L177 SettingsManager]: Büchi Program Product provides no preferences, ignoring... [2018-11-23 09:13:10,925 INFO L174 SettingsManager]: Resetting LTL2Aut preferences to default values [2018-11-23 09:13:10,926 INFO L174 SettingsManager]: Resetting PEA to Boogie preferences to default values [2018-11-23 09:13:10,927 INFO L174 SettingsManager]: Resetting BlockEncodingV2 preferences to default values [2018-11-23 09:13:10,928 INFO L174 SettingsManager]: Resetting ChcToBoogie preferences to default values [2018-11-23 09:13:10,929 INFO L174 SettingsManager]: Resetting AutomataScriptInterpreter preferences to default values [2018-11-23 09:13:10,930 INFO L174 SettingsManager]: Resetting BuchiAutomizer preferences to default values [2018-11-23 09:13:10,931 INFO L174 SettingsManager]: Resetting CACSL2BoogieTranslator preferences to default values [2018-11-23 09:13:10,933 INFO L174 SettingsManager]: Resetting CodeCheck preferences to default values [2018-11-23 09:13:10,934 INFO L174 SettingsManager]: Resetting InvariantSynthesis preferences to default values [2018-11-23 09:13:10,935 INFO L174 SettingsManager]: Resetting RCFGBuilder preferences to default values [2018-11-23 09:13:10,936 INFO L174 SettingsManager]: Resetting TraceAbstraction preferences to default values [2018-11-23 09:13:10,939 INFO L177 SettingsManager]: TraceAbstractionConcurrent provides no preferences, ignoring... [2018-11-23 09:13:10,939 INFO L177 SettingsManager]: TraceAbstractionWithAFAs provides no preferences, ignoring... [2018-11-23 09:13:10,939 INFO L174 SettingsManager]: Resetting TreeAutomizer preferences to default values [2018-11-23 09:13:10,940 INFO L174 SettingsManager]: Resetting IcfgTransformer preferences to default values [2018-11-23 09:13:10,941 INFO L174 SettingsManager]: Resetting Boogie Printer preferences to default values [2018-11-23 09:13:10,942 INFO L174 SettingsManager]: Resetting ReqPrinter preferences to default values [2018-11-23 09:13:10,943 INFO L174 SettingsManager]: Resetting Witness Printer preferences to default values [2018-11-23 09:13:10,943 INFO L177 SettingsManager]: Boogie PL CUP Parser provides no preferences, ignoring... [2018-11-23 09:13:10,944 INFO L174 SettingsManager]: Resetting CDTParser preferences to default values [2018-11-23 09:13:10,944 INFO L177 SettingsManager]: AutomataScriptParser provides no preferences, ignoring... [2018-11-23 09:13:10,944 INFO L177 SettingsManager]: ReqParser provides no preferences, ignoring... [2018-11-23 09:13:10,946 INFO L174 SettingsManager]: Resetting SmtParser preferences to default values [2018-11-23 09:13:10,947 INFO L174 SettingsManager]: Resetting Witness Parser preferences to default values [2018-11-23 09:13:10,947 INFO L181 SettingsManager]: Finished resetting all preferences to default values... [2018-11-23 09:13:10,948 INFO L98 SettingsManager]: Beginning loading settings from /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Default.epf [2018-11-23 09:13:10,960 INFO L110 SettingsManager]: Loading preferences was successful [2018-11-23 09:13:10,960 INFO L112 SettingsManager]: Preferences different from defaults after loading the file: [2018-11-23 09:13:10,962 INFO L131 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2018-11-23 09:13:10,962 INFO L133 SettingsManager]: * ... to procedures called more than once=ALWAYS [2018-11-23 09:13:10,962 INFO L131 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2018-11-23 09:13:10,962 INFO L133 SettingsManager]: * Create parallel compositions if possible=false [2018-11-23 09:13:10,963 INFO L131 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2018-11-23 09:13:10,963 INFO L133 SettingsManager]: * sizeof long=4 [2018-11-23 09:13:10,963 INFO L133 SettingsManager]: * Overapproximate operations on floating types=true [2018-11-23 09:13:10,963 INFO L133 SettingsManager]: * sizeof POINTER=4 [2018-11-23 09:13:10,963 INFO L133 SettingsManager]: * Check division by zero=IGNORE [2018-11-23 09:13:10,963 INFO L133 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * sizeof long double=12 [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * Check if freed pointer was valid=false [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * Use constant arrays=true [2018-11-23 09:13:10,964 INFO L133 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2018-11-23 09:13:10,964 INFO L131 SettingsManager]: Preferences of CodeCheck differ from their defaults: [2018-11-23 09:13:10,965 INFO L133 SettingsManager]: * Timeout in seconds=1000000 [2018-11-23 09:13:10,965 INFO L131 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2018-11-23 09:13:10,965 INFO L133 SettingsManager]: * To the following directory=./dump/ [2018-11-23 09:13:10,965 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:10000 [2018-11-23 09:13:10,965 INFO L131 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2018-11-23 09:13:10,965 INFO L133 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2018-11-23 09:13:10,966 INFO L133 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles [2018-11-23 09:13:10,966 INFO L133 SettingsManager]: * Trace refinement strategy=PENGUIN [2018-11-23 09:13:10,966 INFO L133 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode [2018-11-23 09:13:10,966 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in [2018-11-23 09:13:10,966 INFO L133 SettingsManager]: * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true Applying setting for plugin de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator: Entry function -> main Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness directory -> /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Witness filename -> witness.graphml Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Write witness besides input file -> false Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data specification -> CHECK( init(main()), LTL(G ! call(__VERIFIER_error())) ) Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data producer -> Kojak Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data architecture -> 32bit Applying setting for plugin de.uni_freiburg.informatik.ultimate.witnessprinter: Graph data programhash -> 9722a10940ebd7a5d75170225a40cd37454d0528 [2018-11-23 09:13:10,996 INFO L81 nceAwareModelManager]: Repository-Root is: /tmp [2018-11-23 09:13:11,008 INFO L258 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2018-11-23 09:13:11,011 INFO L214 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2018-11-23 09:13:11,012 INFO L271 PluginConnector]: Initializing CDTParser... [2018-11-23 09:13:11,013 INFO L276 PluginConnector]: CDTParser initialized [2018-11-23 09:13:11,014 INFO L418 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/../../sv-benchmarks/c/loops/insertion_sort_false-unreach-call_true-termination.i [2018-11-23 09:13:11,072 INFO L221 CDTParser]: Created temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/data/d318acc7c/2c4016be738a4a189add0a12f636c42d/FLAG08c6a0b78 [2018-11-23 09:13:11,456 INFO L307 CDTParser]: Found 1 translation units. [2018-11-23 09:13:11,457 INFO L161 CDTParser]: Scanning /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/sv-benchmarks/c/loops/insertion_sort_false-unreach-call_true-termination.i [2018-11-23 09:13:11,464 INFO L355 CDTParser]: About to delete temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/data/d318acc7c/2c4016be738a4a189add0a12f636c42d/FLAG08c6a0b78 [2018-11-23 09:13:11,480 INFO L363 CDTParser]: Successfully deleted /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/data/d318acc7c/2c4016be738a4a189add0a12f636c42d [2018-11-23 09:13:11,483 INFO L296 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2018-11-23 09:13:11,485 INFO L131 ToolchainWalker]: Walking toolchain with 6 elements. [2018-11-23 09:13:11,485 INFO L113 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2018-11-23 09:13:11,486 INFO L271 PluginConnector]: Initializing CACSL2BoogieTranslator... [2018-11-23 09:13:11,488 INFO L276 PluginConnector]: CACSL2BoogieTranslator initialized [2018-11-23 09:13:11,489 INFO L185 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,492 INFO L205 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@2d2beeb and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11, skipping insertion in model container [2018-11-23 09:13:11,492 INFO L185 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,503 INFO L145 MainTranslator]: Starting translation in SV-COMP mode [2018-11-23 09:13:11,524 INFO L176 MainTranslator]: Built tables and reachable declarations [2018-11-23 09:13:11,677 INFO L201 PostProcessor]: Analyzing one entry point: main [2018-11-23 09:13:11,679 INFO L191 MainTranslator]: Completed pre-run [2018-11-23 09:13:11,695 INFO L201 PostProcessor]: Analyzing one entry point: main [2018-11-23 09:13:11,712 INFO L195 MainTranslator]: Completed translation [2018-11-23 09:13:11,712 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11 WrapperNode [2018-11-23 09:13:11,712 INFO L132 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2018-11-23 09:13:11,713 INFO L113 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2018-11-23 09:13:11,713 INFO L271 PluginConnector]: Initializing Boogie Procedure Inliner... [2018-11-23 09:13:11,713 INFO L276 PluginConnector]: Boogie Procedure Inliner initialized [2018-11-23 09:13:11,719 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,728 INFO L185 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,743 INFO L132 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2018-11-23 09:13:11,743 INFO L113 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2018-11-23 09:13:11,743 INFO L271 PluginConnector]: Initializing Boogie Preprocessor... [2018-11-23 09:13:11,743 INFO L276 PluginConnector]: Boogie Preprocessor initialized [2018-11-23 09:13:11,750 INFO L185 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,750 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,752 INFO L185 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,752 INFO L185 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,757 INFO L185 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,807 INFO L185 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,808 INFO L185 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... [2018-11-23 09:13:11,810 INFO L132 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2018-11-23 09:13:11,810 INFO L113 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2018-11-23 09:13:11,810 INFO L271 PluginConnector]: Initializing RCFGBuilder... [2018-11-23 09:13:11,810 INFO L276 PluginConnector]: RCFGBuilder initialized [2018-11-23 09:13:11,811 INFO L185 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 23.11 09:13:11" (1/1) ... No working directory specified, using /tmp/vcloud-vcloud-master/worker/working_dir_f5aad212-5fa9-457a-9e78-46def0317e3b/bin-2019/ukojak/z3 Starting monitored process 1 with z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:10000 (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:10000 [2018-11-23 09:13:11,859 INFO L130 BoogieDeclarations]: Found specification of procedure write~int [2018-11-23 09:13:11,860 INFO L130 BoogieDeclarations]: Found specification of procedure #Ultimate.alloc [2018-11-23 09:13:11,860 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2018-11-23 09:13:11,860 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2018-11-23 09:13:11,860 INFO L130 BoogieDeclarations]: Found specification of procedure read~int [2018-11-23 09:13:11,860 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.dealloc [2018-11-23 09:13:12,118 INFO L275 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2018-11-23 09:13:12,118 INFO L280 CfgBuilder]: Removed 9 assue(true) statements. [2018-11-23 09:13:12,119 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 23.11 09:13:12 BoogieIcfgContainer [2018-11-23 09:13:12,119 INFO L132 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2018-11-23 09:13:12,119 INFO L113 PluginConnector]: ------------------------CodeCheck---------------------------- [2018-11-23 09:13:12,120 INFO L271 PluginConnector]: Initializing CodeCheck... [2018-11-23 09:13:12,131 INFO L276 PluginConnector]: CodeCheck initialized [2018-11-23 09:13:12,132 INFO L185 PluginConnector]: Executing the observer CodeCheckObserver from plugin CodeCheck for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 23.11 09:13:12" (1/1) ... [2018-11-23 09:13:12,140 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-11-23 09:13:12,166 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:12,172 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 15 states to 11 states and 15 transitions. [2018-11-23 09:13:12,172 INFO L276 IsEmpty]: Start isEmpty. Operand 11 states and 15 transitions. [2018-11-23 09:13:12,174 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 6 [2018-11-23 09:13:12,175 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:12,271 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:12,371 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 09:13:12,458 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:12,458 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 20 states to 13 states and 20 transitions. [2018-11-23 09:13:12,458 INFO L276 IsEmpty]: Start isEmpty. Operand 13 states and 20 transitions. [2018-11-23 09:13:12,458 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 9 [2018-11-23 09:13:12,459 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:12,466 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:12,476 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 1 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:12,481 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:12,482 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 19 states to 13 states and 19 transitions. [2018-11-23 09:13:12,482 INFO L276 IsEmpty]: Start isEmpty. Operand 13 states and 19 transitions. [2018-11-23 09:13:12,482 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 10 [2018-11-23 09:13:12,483 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:12,513 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:12,908 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 09:13:13,440 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:13,441 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 35 states to 20 states and 35 transitions. [2018-11-23 09:13:13,442 INFO L276 IsEmpty]: Start isEmpty. Operand 20 states and 35 transitions. [2018-11-23 09:13:13,445 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 12 [2018-11-23 09:13:13,445 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:13,473 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:13,796 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:14,447 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:14,448 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 39 states to 23 states and 39 transitions. [2018-11-23 09:13:14,448 INFO L276 IsEmpty]: Start isEmpty. Operand 23 states and 39 transitions. [2018-11-23 09:13:14,448 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 13 [2018-11-23 09:13:14,449 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:14,467 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:14,620 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 1 proven. 2 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:15,455 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:15,455 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 51 states to 28 states and 51 transitions. [2018-11-23 09:13:15,455 INFO L276 IsEmpty]: Start isEmpty. Operand 28 states and 51 transitions. [2018-11-23 09:13:15,456 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 14 [2018-11-23 09:13:15,456 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:15,471 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:15,608 INFO L134 CoverageAnalysis]: Checked inductivity of 7 backedges. 6 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:15,875 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:15,875 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 50 states to 28 states and 50 transitions. [2018-11-23 09:13:15,875 INFO L276 IsEmpty]: Start isEmpty. Operand 28 states and 50 transitions. [2018-11-23 09:13:15,876 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 14 [2018-11-23 09:13:15,876 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:15,898 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:16,166 INFO L134 CoverageAnalysis]: Checked inductivity of 6 backedges. 0 proven. 6 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:16,906 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:16,907 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 57 states to 31 states and 57 transitions. [2018-11-23 09:13:16,907 INFO L276 IsEmpty]: Start isEmpty. Operand 31 states and 57 transitions. [2018-11-23 09:13:16,908 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 16 [2018-11-23 09:13:16,908 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:16,929 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:17,312 INFO L134 CoverageAnalysis]: Checked inductivity of 10 backedges. 0 proven. 10 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:18,283 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:18,284 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 65 states to 35 states and 65 transitions. [2018-11-23 09:13:18,284 INFO L276 IsEmpty]: Start isEmpty. Operand 35 states and 65 transitions. [2018-11-23 09:13:18,285 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 17 [2018-11-23 09:13:18,285 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:18,298 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:19,179 INFO L134 CoverageAnalysis]: Checked inductivity of 8 backedges. 0 proven. 8 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:22,808 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:22,809 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 82 states to 43 states and 82 transitions. [2018-11-23 09:13:22,809 INFO L276 IsEmpty]: Start isEmpty. Operand 43 states and 82 transitions. [2018-11-23 09:13:22,810 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 18 [2018-11-23 09:13:22,810 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:22,831 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:23,277 INFO L134 CoverageAnalysis]: Checked inductivity of 16 backedges. 0 proven. 16 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:24,290 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:24,290 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 85 states to 45 states and 85 transitions. [2018-11-23 09:13:24,291 INFO L276 IsEmpty]: Start isEmpty. Operand 45 states and 85 transitions. [2018-11-23 09:13:24,291 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 19 [2018-11-23 09:13:24,291 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:24,310 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:25,160 INFO L134 CoverageAnalysis]: Checked inductivity of 12 backedges. 0 proven. 12 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:27,406 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:27,406 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 90 states to 49 states and 90 transitions. [2018-11-23 09:13:27,406 INFO L276 IsEmpty]: Start isEmpty. Operand 49 states and 90 transitions. [2018-11-23 09:13:27,407 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 20 [2018-11-23 09:13:27,407 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:27,416 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:27,780 INFO L134 CoverageAnalysis]: Checked inductivity of 24 backedges. 15 proven. 9 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:29,156 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:29,157 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 95 states to 51 states and 95 transitions. [2018-11-23 09:13:29,157 INFO L276 IsEmpty]: Start isEmpty. Operand 51 states and 95 transitions. [2018-11-23 09:13:29,158 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 20 [2018-11-23 09:13:29,158 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:29,171 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:29,641 INFO L134 CoverageAnalysis]: Checked inductivity of 13 backedges. 2 proven. 11 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:33,830 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:33,830 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 112 states to 58 states and 112 transitions. [2018-11-23 09:13:33,831 INFO L276 IsEmpty]: Start isEmpty. Operand 58 states and 112 transitions. [2018-11-23 09:13:33,831 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 20 [2018-11-23 09:13:33,832 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:33,862 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:35,121 INFO L134 CoverageAnalysis]: Checked inductivity of 21 backedges. 0 proven. 21 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:38,123 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:38,123 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 124 states to 64 states and 124 transitions. [2018-11-23 09:13:38,124 INFO L276 IsEmpty]: Start isEmpty. Operand 64 states and 124 transitions. [2018-11-23 09:13:38,124 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 21 [2018-11-23 09:13:38,125 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:38,148 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:39,981 INFO L134 CoverageAnalysis]: Checked inductivity of 18 backedges. 0 proven. 18 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:44,254 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:44,255 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 133 states to 69 states and 133 transitions. [2018-11-23 09:13:44,255 INFO L276 IsEmpty]: Start isEmpty. Operand 69 states and 133 transitions. [2018-11-23 09:13:44,255 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 21 [2018-11-23 09:13:44,255 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:44,268 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:45,530 INFO L134 CoverageAnalysis]: Checked inductivity of 17 backedges. 0 proven. 17 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:48,249 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:48,249 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 143 states to 72 states and 143 transitions. [2018-11-23 09:13:48,249 INFO L276 IsEmpty]: Start isEmpty. Operand 72 states and 143 transitions. [2018-11-23 09:13:48,250 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 23 [2018-11-23 09:13:48,250 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:48,268 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:49,997 INFO L134 CoverageAnalysis]: Checked inductivity of 23 backedges. 0 proven. 23 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:13:53,885 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:13:53,885 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 147 states to 75 states and 147 transitions. [2018-11-23 09:13:53,885 INFO L276 IsEmpty]: Start isEmpty. Operand 75 states and 147 transitions. [2018-11-23 09:13:53,886 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 24 [2018-11-23 09:13:53,886 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:13:53,897 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:13:55,770 INFO L134 CoverageAnalysis]: Checked inductivity of 22 backedges. 0 proven. 22 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:06,012 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:06,013 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 169 states to 85 states and 169 transitions. [2018-11-23 09:14:06,013 INFO L276 IsEmpty]: Start isEmpty. Operand 85 states and 169 transitions. [2018-11-23 09:14:06,013 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 24 [2018-11-23 09:14:06,014 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:06,038 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:08,318 INFO L134 CoverageAnalysis]: Checked inductivity of 36 backedges. 3 proven. 33 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:11,384 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:11,384 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 151 states to 81 states and 151 transitions. [2018-11-23 09:14:11,385 INFO L276 IsEmpty]: Start isEmpty. Operand 81 states and 151 transitions. [2018-11-23 09:14:11,385 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 25 [2018-11-23 09:14:11,385 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:11,410 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:12,482 INFO L134 CoverageAnalysis]: Checked inductivity of 31 backedges. 0 proven. 31 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:15,086 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:15,086 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 153 states to 83 states and 153 transitions. [2018-11-23 09:14:15,086 INFO L276 IsEmpty]: Start isEmpty. Operand 83 states and 153 transitions. [2018-11-23 09:14:15,086 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 25 [2018-11-23 09:14:15,086 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:15,100 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:17,060 INFO L134 CoverageAnalysis]: Checked inductivity of 30 backedges. 0 proven. 30 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:18,808 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:18,808 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 155 states to 84 states and 155 transitions. [2018-11-23 09:14:18,808 INFO L276 IsEmpty]: Start isEmpty. Operand 84 states and 155 transitions. [2018-11-23 09:14:18,809 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 25 [2018-11-23 09:14:18,809 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:18,829 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:19,686 INFO L134 CoverageAnalysis]: Checked inductivity of 31 backedges. 0 proven. 31 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:20,475 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:20,476 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 150 states to 82 states and 150 transitions. [2018-11-23 09:14:20,476 INFO L276 IsEmpty]: Start isEmpty. Operand 82 states and 150 transitions. [2018-11-23 09:14:20,476 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 26 [2018-11-23 09:14:20,476 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:20,491 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:22,160 INFO L134 CoverageAnalysis]: Checked inductivity of 28 backedges. 0 proven. 28 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:27,290 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:27,291 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 160 states to 87 states and 160 transitions. [2018-11-23 09:14:27,291 INFO L276 IsEmpty]: Start isEmpty. Operand 87 states and 160 transitions. [2018-11-23 09:14:27,291 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 27 [2018-11-23 09:14:27,292 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:27,303 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:28,863 INFO L134 CoverageAnalysis]: Checked inductivity of 30 backedges. 3 proven. 27 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:43,052 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:43,053 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 182 states to 97 states and 182 transitions. [2018-11-23 09:14:43,053 INFO L276 IsEmpty]: Start isEmpty. Operand 97 states and 182 transitions. [2018-11-23 09:14:43,053 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 27 [2018-11-23 09:14:43,053 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:43,073 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:45,990 INFO L134 CoverageAnalysis]: Checked inductivity of 41 backedges. 0 proven. 41 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:49,773 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:49,773 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 183 states to 98 states and 183 transitions. [2018-11-23 09:14:49,773 INFO L276 IsEmpty]: Start isEmpty. Operand 98 states and 183 transitions. [2018-11-23 09:14:49,774 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 27 [2018-11-23 09:14:49,774 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:49,807 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-11-23 09:14:53,470 INFO L134 CoverageAnalysis]: Checked inductivity of 38 backedges. 0 proven. 38 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-11-23 09:14:56,358 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-11-23 09:14:56,358 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 183 states to 99 states and 183 transitions. [2018-11-23 09:14:56,358 INFO L276 IsEmpty]: Start isEmpty. Operand 99 states and 183 transitions. [2018-11-23 09:14:56,359 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 28 [2018-11-23 09:14:56,359 INFO L427 CodeCheckObserver]: Error Path is FOUND. [2018-11-23 09:14:56,383 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-11-23 09:14:56,405 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-11-23 09:14:56,463 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-11-23 09:14:56,485 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-11-23 09:14:56,518 WARN L493 CodeCheckObserver]: This program is UNSAFE, Check terminated with 27 iterations. ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder.RCFGBacktranslator [?] #NULL.base, #NULL.offset := 0, 0;#valid := #valid[0 := 0];havoc main_#res;havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0.base, main_~#v~0.offset;main_~SIZE~0 := main_#t~nondet0;havoc main_#t~nondet0;havoc main_~i~0;havoc main_~j~0;havoc main_~k~0;havoc main_~key~0;call main_~#v~0.base, main_~#v~0.offset := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296));main_~j~0 := 1; VAL [ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4);main_~key~0 := main_#t~mem2;havoc main_#t~mem2;main_~i~0 := main_~j~0 - 1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=(- 2062), |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4);main_~key~0 := main_#t~mem2;havoc main_#t~mem2;main_~i~0 := main_~j~0 - 1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=901, |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4);main_~key~0 := main_#t~mem2;havoc main_#t~mem2;main_~i~0 := main_~j~0 - 1; VAL [ULTIMATE.start_main_~i~0=2, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=2, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=902, |ULTIMATE.start_main_#t~short4|=true, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3;BeginParallelComposition{ParallelCodeBlock0: assume main_~i~0 < 2;call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);havoc main_#t~mem5;ParallelCodeBlock1: assume !(main_~i~0 < 2);}EndParallelCompositionmain_~i~0 := main_~i~0 - 1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=31, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=901, |ULTIMATE.start_main_#t~mem5|=31, |ULTIMATE.start_main_#t~short4|=true, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3;BeginParallelComposition{ParallelCodeBlock0: assume main_~i~0 < 2;call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);havoc main_#t~mem5;ParallelCodeBlock1: assume !(main_~i~0 < 2);}EndParallelCompositionmain_~i~0 := main_~i~0 - 1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=(- 2062), |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] BeginParallelComposition{ParallelCodeBlock0: assume !true;ParallelCodeBlock1: assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);}EndParallelCompositionmain_~k~0 := 1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=(- 2062), |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !(0 == __VERIFIER_assert_~cond); VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=(- 2062), |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] havoc main_#t~mem7;havoc main_#t~mem8;main_#t~post6 := main_~k~0;main_~k~0 := 1 + main_#t~post6;havoc main_#t~post6; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=900, |ULTIMATE.start_main_#t~mem8|=901, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !(0 == __VERIFIER_assert_~cond); VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=900, |ULTIMATE.start_main_#t~mem8|=901, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] havoc main_#t~mem7;havoc main_#t~mem8;main_#t~post6 := main_~k~0;main_~k~0 := 1 + main_#t~post6;havoc main_#t~post6; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume 0 == __VERIFIER_assert_~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !false; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] #NULL.base, #NULL.offset := 0, 0; [?] #valid := #valid[0 := 0]; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0.base, main_~#v~0.offset; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] call main_~#v~0.base, main_~#v~0.offset := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume !(main_~i~0 < 2); [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=31, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume main_~i~0 < 2; [L19] call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L19] call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L24] main_~k~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4-L6] assume 0 == __VERIFIER_assert_~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.preprocessor.BoogiePreprocessorBacktranslator [?] #NULL.base, #NULL.offset := 0, 0; [?] #valid := #valid[0 := 0]; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0.base, main_~#v~0.offset; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] call main_~#v~0.base, main_~#v~0.offset := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume !(main_~i~0 < 2); [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=31, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume main_~i~0 < 2; [L19] call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L19] call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L24] main_~k~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4-L6] assume 0 == __VERIFIER_assert_~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] FCALL call main_~#v~0 := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND FALSE !(main_~i~0 < 2) [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=31, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND TRUE main_~i~0 < 2 [L19] FCALL call main_#t~mem5 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L19] FCALL call write~int(main_#t~mem5, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] COND TRUE !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296) [L24] main_~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4] COND TRUE 0 == __VERIFIER_assert_~cond VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.procedureinliner.backtranslation.InlinerBacktranslator [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] FCALL call main_~#v~0 := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND FALSE !(main_~i~0 < 2) [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=31, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND TRUE main_~i~0 < 2 [L19] FCALL call main_#t~mem5 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L19] FCALL call write~int(main_#t~mem5, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] COND TRUE !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296) [L24] main_~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4] COND TRUE 0 == __VERIFIER_assert_~cond VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [L11] ~SIZE~0 := #t~nondet0; [L11] havoc #t~nondet0; [L12] havoc ~i~0; [L12] havoc ~j~0; [L12] havoc ~k~0; [L12] havoc ~key~0; [L13] FCALL call ~#v~0 := #Ultimate.alloc(4 * (if ~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then ~SIZE~0 % 4294967296 % 4294967296 else ~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] ~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND FALSE !(~i~0 < 2) [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND TRUE ~i~0 < 2 [L19] FCALL call #t~mem5 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L19] FCALL call write~int(#t~mem5, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L19] havoc #t~mem5; [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND TRUE !(~j~0 % 4294967296 < ~SIZE~0 % 4294967296) [L24] ~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND TRUE 0 == ~cond VAL [#NULL!base=0, #NULL!offset=0] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0] ----- ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.CACSL2BoogieBacktranslator [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [L11] ~SIZE~0 := #t~nondet0; [L11] havoc #t~nondet0; [L12] havoc ~i~0; [L12] havoc ~j~0; [L12] havoc ~k~0; [L12] havoc ~key~0; [L13] FCALL call ~#v~0 := #Ultimate.alloc(4 * (if ~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then ~SIZE~0 % 4294967296 % 4294967296 else ~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] ~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND FALSE !(~i~0 < 2) [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND TRUE ~i~0 < 2 [L19] FCALL call #t~mem5 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L19] FCALL call write~int(#t~mem5, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L19] havoc #t~mem5; [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND TRUE !(~j~0 % 4294967296 < ~SIZE~0 % 4294967296) [L24] ~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND TRUE 0 == ~cond VAL [#NULL!base=0, #NULL!offset=0] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0] [L11] unsigned int SIZE=__VERIFIER_nondet_uint(); [L12] int i, j, k, key; [L13] int v[SIZE]; [L14] j=1 [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND FALSE !(i<2) [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND TRUE i<2 [L19] EXPR v[i] [L19] v[i+1] = v[i] [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND FALSE !(j= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=(- 2062), |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=1, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=901, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4);main_~key~0 := main_#t~mem2;havoc main_#t~mem2;main_~i~0 := main_~j~0 - 1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=901, |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=2, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=902, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4);main_~key~0 := main_#t~mem2;havoc main_#t~mem2;main_~i~0 := main_~j~0 - 1; VAL [ULTIMATE.start_main_~i~0=2, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=2, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=902, |ULTIMATE.start_main_#t~short4|=true, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3;BeginParallelComposition{ParallelCodeBlock0: assume main_~i~0 < 2;call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);havoc main_#t~mem5;ParallelCodeBlock1: assume !(main_~i~0 < 2);}EndParallelCompositionmain_~i~0 := main_~i~0 - 1; VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=31, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=1, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=901, |ULTIMATE.start_main_#t~mem5|=31, |ULTIMATE.start_main_#t~short4|=true, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3;BeginParallelComposition{ParallelCodeBlock0: assume main_~i~0 < 2;call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);havoc main_#t~mem5;ParallelCodeBlock1: assume !(main_~i~0 < 2);}EndParallelCompositionmain_~i~0 := main_~i~0 - 1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] main_#t~short4 := main_~i~0 >= 0;BeginParallelComposition{ParallelCodeBlock0: assume main_#t~short4;call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4);main_#t~short4 := main_#t~mem3 > main_~key~0;ParallelCodeBlock1: assume !main_#t~short4;}EndParallelComposition VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem3|=(- 2062), |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~short4|=false, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !main_#t~short4;havoc main_#t~short4;havoc main_#t~mem3; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=3, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4);main_#t~post1 := main_~j~0;main_~j~0 := 1 + main_#t~post1;havoc main_#t~post1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] BeginParallelComposition{ParallelCodeBlock0: assume !true;ParallelCodeBlock1: assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296);}EndParallelCompositionmain_~k~0 := 1; VAL [ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=(- 2062), |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !(0 == __VERIFIER_assert_~cond); VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=1, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=(- 2062), |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] havoc main_#t~mem7;havoc main_#t~mem8;main_#t~post6 := main_~k~0;main_~k~0 := 1 + main_#t~post6;havoc main_#t~post6; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=900, |ULTIMATE.start_main_#t~mem8|=901, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !(0 == __VERIFIER_assert_~cond); VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=2, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=900, |ULTIMATE.start_main_#t~mem8|=901, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] havoc main_#t~mem7;havoc main_#t~mem8;main_#t~post6 := main_~k~0;main_~k~0 := 1 + main_#t~post6;havoc main_#t~post6; VAL [ULTIMATE.start___VERIFIER_assert_~cond=1, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=1, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296);call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4);call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4);__VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0);havoc __VERIFIER_assert_~cond;__VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume 0 == __VERIFIER_assert_~cond; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] assume !false; VAL [ULTIMATE.start___VERIFIER_assert_~cond=0, ULTIMATE.start_main_~i~0=0, ULTIMATE.start_main_~j~0=4, ULTIMATE.start_main_~key~0=900, ULTIMATE.start_main_~k~0=3, ULTIMATE.start_main_~SIZE~0=4, |#NULL.base|=0, |#NULL.offset|=0, |ULTIMATE.start___VERIFIER_assert_#in~cond|=0, |ULTIMATE.start_main_#t~mem5|=0, |ULTIMATE.start_main_#t~mem7|=901, |ULTIMATE.start_main_#t~mem8|=900, |ULTIMATE.start_main_~#v~0.base|=5, |ULTIMATE.start_main_~#v~0.offset|=0] [?] #NULL.base, #NULL.offset := 0, 0; [?] #valid := #valid[0 := 0]; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0.base, main_~#v~0.offset; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] call main_~#v~0.base, main_~#v~0.offset := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume !(main_~i~0 < 2); [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=31, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume main_~i~0 < 2; [L19] call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L19] call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L24] main_~k~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4-L6] assume 0 == __VERIFIER_assert_~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.preprocessor.BoogiePreprocessorBacktranslator [?] #NULL.base, #NULL.offset := 0, 0; [?] #valid := #valid[0 := 0]; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0.base, main_~#v~0.offset; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] call main_~#v~0.base, main_~#v~0.offset := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] assume !!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L15] call main_#t~mem2 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~j~0, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume !(main_~i~0 < 2); [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=31, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !!main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18-L19] assume main_~i~0 < 2; [L19] call main_#t~mem5 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L19] call write~int(main_#t~mem5, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] assume main_#t~short4; [L17] call main_#t~mem3 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~i~0, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] assume !main_#t~short4; [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] call write~int(main_~key~0, main_~#v~0.base, main_~#v~0.offset + 4 * (1 + main_~i~0), 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] assume !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L24] main_~k~0 := 1; VAL [#NULL.base=0, #NULL.offset=0, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4-L6] assume !(0 == __VERIFIER_assert_~cond); VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] assume !!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296); [L25] call main_#t~mem7 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * (main_~k~0 - 1), 4); [L25] call main_#t~mem8 := read~int(main_~#v~0.base, main_~#v~0.offset + 4 * main_~k~0, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4-L6] assume 0 == __VERIFIER_assert_~cond; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL.base=0, #NULL.offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0.base=5, main_~#v~0.offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] FCALL call main_~#v~0 := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND FALSE !(main_~i~0 < 2) [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=31, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND TRUE main_~i~0 < 2 [L19] FCALL call main_#t~mem5 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L19] FCALL call write~int(main_#t~mem5, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] COND TRUE !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296) [L24] main_~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4] COND TRUE 0 == __VERIFIER_assert_~cond VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] ----- ----- class de.uni_freiburg.informatik.ultimate.boogie.procedureinliner.backtranslation.InlinerBacktranslator [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [?] havoc main_#res; [?] havoc main_#t~nondet0, main_#t~mem2, main_#t~mem5, main_#t~mem3, main_#t~short4, main_#t~post1, main_#t~mem7, main_#t~mem8, main_#t~post6, main_~SIZE~0, main_~i~0, main_~j~0, main_~k~0, main_~key~0, main_~#v~0; [L11] main_~SIZE~0 := main_#t~nondet0; [L11] havoc main_#t~nondet0; [L12] havoc main_~i~0; [L12] havoc main_~j~0; [L12] havoc main_~k~0; [L12] havoc main_~key~0; [L13] FCALL call main_~#v~0 := #Ultimate.alloc(4 * (if main_~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then main_~SIZE~0 % 4294967296 % 4294967296 else main_~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] main_~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~j~0=1, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=1, main_~key~0=901, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=2, main_~key~0=901, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=2, main_~key~0=902, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=902, main_~SIZE~0=4] [L14-L23] COND FALSE !(!(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L15] FCALL call main_#t~mem2 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~j~0 }, 4); [L15] main_~key~0 := main_#t~mem2; [L15] havoc main_#t~mem2; [L16] main_~i~0 := main_~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=902, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=2, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND FALSE !(main_~i~0 < 2) [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=31, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=901, main_#t~mem5=31, main_#t~short4=true, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=1, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND FALSE !(!main_#t~short4) [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; [L18] COND TRUE main_~i~0 < 2 [L19] FCALL call main_#t~mem5 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L19] FCALL call write~int(main_#t~mem5, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L19] havoc main_#t~mem5; [L20] main_~i~0 := main_~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17] main_#t~short4 := main_~i~0 >= 0; [L17] COND TRUE main_#t~short4 [L17] FCALL call main_#t~mem3 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~i~0 }, 4); [L17] main_#t~short4 := main_#t~mem3 > main_~key~0; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem3=-2062, main_#t~mem5=0, main_#t~short4=false, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L17-L21] COND TRUE !main_#t~short4 [L17] havoc main_#t~short4; [L17] havoc main_#t~mem3; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=3, main_~key~0=900, main_~SIZE~0=4] [L22] FCALL call write~int(main_~key~0, { base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (1 + main_~i~0) }, 4); [L14] main_#t~post1 := main_~j~0; [L14] main_~j~0 := 1 + main_#t~post1; [L14] havoc main_#t~post1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~SIZE~0=4] [L14-L23] COND TRUE !(main_~j~0 % 4294967296 < main_~SIZE~0 % 4294967296) [L24] main_~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=-2062, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=1, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L4] COND FALSE !(0 == __VERIFIER_assert_~cond) VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_#t~mem7=900, main_#t~mem8=901, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=2, main_~SIZE~0=4] [L25] havoc main_#t~mem7; [L25] havoc main_#t~mem8; [L24] main_#t~post6 := main_~k~0; [L24] main_~k~0 := 1 + main_#t~post6; [L24] havoc main_#t~post6; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=1, __VERIFIER_assert_~cond=1, main_#t~mem5=0, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L24-L25] COND FALSE !(!(main_~k~0 % 4294967296 < main_~SIZE~0 % 4294967296)) [L25] FCALL call main_#t~mem7 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * (main_~k~0 - 1) }, 4); [L25] FCALL call main_#t~mem8 := read~int({ base: main_~#v~0!base, offset: main_~#v~0!offset + 4 * main_~k~0 }, 4); [L25] __VERIFIER_assert_#in~cond := (if main_#t~mem7 <= main_#t~mem8 then 1 else 0); [L25] havoc __VERIFIER_assert_~cond; [L3-L8] __VERIFIER_assert_~cond := __VERIFIER_assert_#in~cond; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L4] COND TRUE 0 == __VERIFIER_assert_~cond VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0, __VERIFIER_assert_#in~cond=0, __VERIFIER_assert_~cond=0, main_#t~mem5=0, main_#t~mem7=901, main_#t~mem8=900, main_~#v~0!base=5, main_~#v~0!offset=0, main_~i~0=0, main_~j~0=4, main_~key~0=900, main_~k~0=3, main_~SIZE~0=4] [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [L11] ~SIZE~0 := #t~nondet0; [L11] havoc #t~nondet0; [L12] havoc ~i~0; [L12] havoc ~j~0; [L12] havoc ~k~0; [L12] havoc ~key~0; [L13] FCALL call ~#v~0 := #Ultimate.alloc(4 * (if ~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then ~SIZE~0 % 4294967296 % 4294967296 else ~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] ~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND FALSE !(~i~0 < 2) [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND TRUE ~i~0 < 2 [L19] FCALL call #t~mem5 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L19] FCALL call write~int(#t~mem5, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L19] havoc #t~mem5; [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND TRUE !(~j~0 % 4294967296 < ~SIZE~0 % 4294967296) [L24] ~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND TRUE 0 == ~cond VAL [#NULL!base=0, #NULL!offset=0] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0] ----- ----- class de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.CACSL2BoogieBacktranslator [?] #NULL := { base: 0, offset: 0 }; [?] #valid[0] := 0; [L11] ~SIZE~0 := #t~nondet0; [L11] havoc #t~nondet0; [L12] havoc ~i~0; [L12] havoc ~j~0; [L12] havoc ~k~0; [L12] havoc ~key~0; [L13] FCALL call ~#v~0 := #Ultimate.alloc(4 * (if ~SIZE~0 % 4294967296 % 4294967296 <= 2147483647 then ~SIZE~0 % 4294967296 % 4294967296 else ~SIZE~0 % 4294967296 % 4294967296 - 4294967296)); [L14] ~j~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND FALSE !(!(~j~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L15] FCALL call #t~mem2 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~j~0 }, 4); [L15] ~key~0 := #t~mem2; [L15] havoc #t~mem2; [L16] ~i~0 := ~j~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND FALSE !(~i~0 < 2) [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND FALSE !(!#t~short4) [L17] havoc #t~short4; [L17] havoc #t~mem3; [L18] COND TRUE ~i~0 < 2 [L19] FCALL call #t~mem5 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L19] FCALL call write~int(#t~mem5, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L19] havoc #t~mem5; [L20] ~i~0 := ~i~0 - 1; VAL [#NULL!base=0, #NULL!offset=0] [L17] #t~short4 := ~i~0 >= 0; [L17] COND TRUE #t~short4 [L17] FCALL call #t~mem3 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~i~0 }, 4); [L17] #t~short4 := #t~mem3 > ~key~0; VAL [#NULL!base=0, #NULL!offset=0] [L17-L21] COND TRUE !#t~short4 [L17] havoc #t~short4; [L17] havoc #t~mem3; VAL [#NULL!base=0, #NULL!offset=0] [L22] FCALL call write~int(~key~0, { base: ~#v~0!base, offset: ~#v~0!offset + 4 * (1 + ~i~0) }, 4); [L14] #t~post1 := ~j~0; [L14] ~j~0 := 1 + #t~post1; [L14] havoc #t~post1; VAL [#NULL!base=0, #NULL!offset=0] [L14-L23] COND TRUE !(~j~0 % 4294967296 < ~SIZE~0 % 4294967296) [L24] ~k~0 := 1; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND FALSE !(0 == ~cond) VAL [#NULL!base=0, #NULL!offset=0] [L25] havoc #t~mem7; [L25] havoc #t~mem8; [L24] #t~post6 := ~k~0; [L24] ~k~0 := 1 + #t~post6; [L24] havoc #t~post6; VAL [#NULL!base=0, #NULL!offset=0] [L24-L25] COND FALSE !(!(~k~0 % 4294967296 < ~SIZE~0 % 4294967296)) [L25] FCALL call #t~mem7 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * (~k~0 - 1) }, 4); [L25] FCALL call #t~mem8 := read~int({ base: ~#v~0!base, offset: ~#v~0!offset + 4 * ~k~0 }, 4); [L3-L8] ~cond := #in~cond; VAL [#NULL!base=0, #NULL!offset=0] [L4] COND TRUE 0 == ~cond VAL [#NULL!base=0, #NULL!offset=0] [L5] assert false; VAL [#NULL!base=0, #NULL!offset=0] [L11] unsigned int SIZE=__VERIFIER_nondet_uint(); [L12] int i, j, k, key; [L13] int v[SIZE]; [L14] j=1 [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND FALSE !(i<2) [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND TRUE i<2 [L19] EXPR v[i] [L19] v[i+1] = v[i] [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND FALSE !(j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND TRUE j=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND FALSE !(i<2) [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND TRUE (i>=0) && (v[i]>key) [L18] COND TRUE i<2 [L19] EXPR v[i] [L19] v[i+1] = v[i] [L20] i = i - 1 [L17] (i>=0) && (v[i]>key) [L17] EXPR v[i] [L17] (i>=0) && (v[i]>key) [L17] COND FALSE !((i>=0) && (v[i]>key)) [L22] v[i+1] = key [L14] j++ [L14] COND FALSE !(j