./Ultimate.py --spec ../../sv-benchmarks/c/properties/unreach-call.prp --file ../../sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i --full-output --architecture 32bit -------------------------------------------------------------------------------- Checking for ERROR reachability Using default analysis Version 635dfa2a Calling Ultimate with: java -Dosgi.configuration.area=/tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/config -Xmx12G -Xms1G -jar /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/plugins/org.eclipse.equinox.launcher_1.3.100.v20150511-1540.jar -data @noDefault -ultimatedata /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data -tc /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/KojakReach.xml -i ../../sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i -s /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Default.epf --cacsl2boogietranslator.entry.function main --witnessprinter.witness.directory /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/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 6e973c5cecb5d30af2cf4ea74d1b0b1563334ffe .................................................................................................................................................................................................................................... Execution finished normally Using bit-precise analysis Retrying with bit-precise analysis Calling Ultimate with: java -Dosgi.configuration.area=/tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/config -Xmx12G -Xms1G -jar /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/plugins/org.eclipse.equinox.launcher_1.3.100.v20150511-1540.jar -data @noDefault -ultimatedata /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data -tc /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/KojakReach.xml -i ../../sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i -s /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Bitvector.epf --cacsl2boogietranslator.entry.function main --witnessprinter.witness.directory /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/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 6e973c5cecb5d30af2cf4ea74d1b0b1563334ffe ....................................................................................................................................................................................................................................................................................................................................................................................... Execution finished normally Writing output log to file Ultimate.log Result: TRUE --- Real Ultimate output --- This is Ultimate 0.1.23-635dfa2 [2018-12-02 02:41:12,282 INFO L170 SettingsManager]: Resetting all preferences to default values... [2018-12-02 02:41:12,283 INFO L174 SettingsManager]: Resetting UltimateCore preferences to default values [2018-12-02 02:41:12,288 INFO L177 SettingsManager]: Ultimate Commandline Interface provides no preferences, ignoring... [2018-12-02 02:41:12,289 INFO L174 SettingsManager]: Resetting Boogie Preprocessor preferences to default values [2018-12-02 02:41:12,289 INFO L174 SettingsManager]: Resetting Boogie Procedure Inliner preferences to default values [2018-12-02 02:41:12,290 INFO L174 SettingsManager]: Resetting Abstract Interpretation preferences to default values [2018-12-02 02:41:12,290 INFO L174 SettingsManager]: Resetting LassoRanker preferences to default values [2018-12-02 02:41:12,291 INFO L174 SettingsManager]: Resetting Reaching Definitions preferences to default values [2018-12-02 02:41:12,292 INFO L174 SettingsManager]: Resetting SyntaxChecker preferences to default values [2018-12-02 02:41:12,292 INFO L177 SettingsManager]: Büchi Program Product provides no preferences, ignoring... [2018-12-02 02:41:12,292 INFO L174 SettingsManager]: Resetting LTL2Aut preferences to default values [2018-12-02 02:41:12,292 INFO L174 SettingsManager]: Resetting PEA to Boogie preferences to default values [2018-12-02 02:41:12,293 INFO L174 SettingsManager]: Resetting BlockEncodingV2 preferences to default values [2018-12-02 02:41:12,293 INFO L174 SettingsManager]: Resetting ChcToBoogie preferences to default values [2018-12-02 02:41:12,294 INFO L174 SettingsManager]: Resetting AutomataScriptInterpreter preferences to default values [2018-12-02 02:41:12,294 INFO L174 SettingsManager]: Resetting BuchiAutomizer preferences to default values [2018-12-02 02:41:12,295 INFO L174 SettingsManager]: Resetting CACSL2BoogieTranslator preferences to default values [2018-12-02 02:41:12,296 INFO L174 SettingsManager]: Resetting CodeCheck preferences to default values [2018-12-02 02:41:12,297 INFO L174 SettingsManager]: Resetting InvariantSynthesis preferences to default values [2018-12-02 02:41:12,297 INFO L174 SettingsManager]: Resetting RCFGBuilder preferences to default values [2018-12-02 02:41:12,298 INFO L174 SettingsManager]: Resetting TraceAbstraction preferences to default values [2018-12-02 02:41:12,299 INFO L177 SettingsManager]: TraceAbstractionConcurrent provides no preferences, ignoring... [2018-12-02 02:41:12,299 INFO L177 SettingsManager]: TraceAbstractionWithAFAs provides no preferences, ignoring... [2018-12-02 02:41:12,299 INFO L174 SettingsManager]: Resetting TreeAutomizer preferences to default values [2018-12-02 02:41:12,300 INFO L174 SettingsManager]: Resetting IcfgTransformer preferences to default values [2018-12-02 02:41:12,300 INFO L174 SettingsManager]: Resetting Boogie Printer preferences to default values [2018-12-02 02:41:12,301 INFO L174 SettingsManager]: Resetting ReqPrinter preferences to default values [2018-12-02 02:41:12,301 INFO L174 SettingsManager]: Resetting Witness Printer preferences to default values [2018-12-02 02:41:12,301 INFO L177 SettingsManager]: Boogie PL CUP Parser provides no preferences, ignoring... [2018-12-02 02:41:12,302 INFO L174 SettingsManager]: Resetting CDTParser preferences to default values [2018-12-02 02:41:12,302 INFO L177 SettingsManager]: AutomataScriptParser provides no preferences, ignoring... [2018-12-02 02:41:12,302 INFO L177 SettingsManager]: ReqParser provides no preferences, ignoring... [2018-12-02 02:41:12,302 INFO L174 SettingsManager]: Resetting SmtParser preferences to default values [2018-12-02 02:41:12,303 INFO L174 SettingsManager]: Resetting Witness Parser preferences to default values [2018-12-02 02:41:12,303 INFO L181 SettingsManager]: Finished resetting all preferences to default values... [2018-12-02 02:41:12,303 INFO L98 SettingsManager]: Beginning loading settings from /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Default.epf [2018-12-02 02:41:12,311 INFO L110 SettingsManager]: Loading preferences was successful [2018-12-02 02:41:12,311 INFO L112 SettingsManager]: Preferences different from defaults after loading the file: [2018-12-02 02:41:12,311 INFO L131 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2018-12-02 02:41:12,312 INFO L133 SettingsManager]: * ... to procedures called more than once=ALWAYS [2018-12-02 02:41:12,312 INFO L131 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2018-12-02 02:41:12,312 INFO L133 SettingsManager]: * Create parallel compositions if possible=false [2018-12-02 02:41:12,312 INFO L131 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * sizeof long=4 [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * Overapproximate operations on floating types=true [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * sizeof POINTER=4 [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * Check division by zero=IGNORE [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2018-12-02 02:41:12,313 INFO L133 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2018-12-02 02:41:12,314 INFO L133 SettingsManager]: * sizeof long double=12 [2018-12-02 02:41:12,314 INFO L133 SettingsManager]: * Check if freed pointer was valid=false [2018-12-02 02:41:12,314 INFO L133 SettingsManager]: * Use constant arrays=true [2018-12-02 02:41:12,314 INFO L133 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2018-12-02 02:41:12,314 INFO L131 SettingsManager]: Preferences of CodeCheck differ from their defaults: [2018-12-02 02:41:12,314 INFO L133 SettingsManager]: * Timeout in seconds=1000000 [2018-12-02 02:41:12,315 INFO L131 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2018-12-02 02:41:12,315 INFO L133 SettingsManager]: * To the following directory=./dump/ [2018-12-02 02:41:12,315 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:10000 [2018-12-02 02:41:12,315 INFO L131 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2018-12-02 02:41:12,315 INFO L133 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2018-12-02 02:41:12,315 INFO L133 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles [2018-12-02 02:41:12,315 INFO L133 SettingsManager]: * Trace refinement strategy=PENGUIN [2018-12-02 02:41:12,316 INFO L133 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode [2018-12-02 02:41:12,316 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in [2018-12-02 02:41:12,316 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_2f355006-d808-449d-9050-df0b9a582fac/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 -> 6e973c5cecb5d30af2cf4ea74d1b0b1563334ffe [2018-12-02 02:41:12,339 INFO L81 nceAwareModelManager]: Repository-Root is: /tmp [2018-12-02 02:41:12,345 INFO L258 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2018-12-02 02:41:12,347 INFO L214 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2018-12-02 02:41:12,348 INFO L271 PluginConnector]: Initializing CDTParser... [2018-12-02 02:41:12,348 INFO L276 PluginConnector]: CDTParser initialized [2018-12-02 02:41:12,349 INFO L418 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/../../sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i [2018-12-02 02:41:12,383 INFO L221 CDTParser]: Created temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/829b35d3b/c4060e30b1a8421dad91ae1127d129da/FLAG6fd4e786f [2018-12-02 02:41:12,685 INFO L307 CDTParser]: Found 1 translation units. [2018-12-02 02:41:12,686 INFO L161 CDTParser]: Scanning /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i [2018-12-02 02:41:12,691 INFO L355 CDTParser]: About to delete temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/829b35d3b/c4060e30b1a8421dad91ae1127d129da/FLAG6fd4e786f [2018-12-02 02:41:13,118 INFO L363 CDTParser]: Successfully deleted /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/829b35d3b/c4060e30b1a8421dad91ae1127d129da [2018-12-02 02:41:13,120 INFO L296 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2018-12-02 02:41:13,121 INFO L131 ToolchainWalker]: Walking toolchain with 6 elements. [2018-12-02 02:41:13,122 INFO L113 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2018-12-02 02:41:13,122 INFO L271 PluginConnector]: Initializing CACSL2BoogieTranslator... [2018-12-02 02:41:13,125 INFO L276 PluginConnector]: CACSL2BoogieTranslator initialized [2018-12-02 02:41:13,126 INFO L185 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,128 INFO L205 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@4857c57f and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13, skipping insertion in model container [2018-12-02 02:41:13,128 INFO L185 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,133 INFO L145 MainTranslator]: Starting translation in SV-COMP mode [2018-12-02 02:41:13,148 INFO L176 MainTranslator]: Built tables and reachable declarations [2018-12-02 02:41:13,249 INFO L203 PostProcessor]: Analyzing one entry point: main [2018-12-02 02:41:13,252 INFO L191 MainTranslator]: Completed pre-run [2018-12-02 02:41:13,271 INFO L203 PostProcessor]: Analyzing one entry point: main [2018-12-02 02:41:13,279 INFO L195 MainTranslator]: Completed translation [2018-12-02 02:41:13,279 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13 WrapperNode [2018-12-02 02:41:13,279 INFO L132 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2018-12-02 02:41:13,280 INFO L113 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2018-12-02 02:41:13,280 INFO L271 PluginConnector]: Initializing Boogie Procedure Inliner... [2018-12-02 02:41:13,280 INFO L276 PluginConnector]: Boogie Procedure Inliner initialized [2018-12-02 02:41:13,286 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,290 INFO L185 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,333 INFO L132 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2018-12-02 02:41:13,334 INFO L113 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2018-12-02 02:41:13,334 INFO L271 PluginConnector]: Initializing Boogie Preprocessor... [2018-12-02 02:41:13,334 INFO L276 PluginConnector]: Boogie Preprocessor initialized [2018-12-02 02:41:13,339 INFO L185 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,340 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,340 INFO L185 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,341 INFO L185 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,343 INFO L185 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,347 INFO L185 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,348 INFO L185 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,349 INFO L132 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2018-12-02 02:41:13,349 INFO L113 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2018-12-02 02:41:13,349 INFO L271 PluginConnector]: Initializing RCFGBuilder... [2018-12-02 02:41:13,349 INFO L276 PluginConnector]: RCFGBuilder initialized [2018-12-02 02:41:13,350 INFO L185 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:13" (1/1) ... No working directory specified, using /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/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 [2018-12-02 02:41:13,381 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2018-12-02 02:41:13,381 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2018-12-02 02:41:13,804 INFO L275 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2018-12-02 02:41:13,804 INFO L280 CfgBuilder]: Removed 10 assue(true) statements. [2018-12-02 02:41:13,804 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 02.12 02:41:13 BoogieIcfgContainer [2018-12-02 02:41:13,804 INFO L132 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2018-12-02 02:41:13,804 INFO L113 PluginConnector]: ------------------------CodeCheck---------------------------- [2018-12-02 02:41:13,804 INFO L271 PluginConnector]: Initializing CodeCheck... [2018-12-02 02:41:13,811 INFO L276 PluginConnector]: CodeCheck initialized [2018-12-02 02:41:13,811 INFO L185 PluginConnector]: Executing the observer CodeCheckObserver from plugin CodeCheck for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 02.12 02:41:13" (1/1) ... [2018-12-02 02:41:13,817 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-12-02 02:41:13,834 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:13,838 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 10 states to 8 states and 10 transitions. [2018-12-02 02:41:13,838 INFO L276 IsEmpty]: Start isEmpty. Operand 8 states and 10 transitions. [2018-12-02 02:41:13,839 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 6 [2018-12-02 02:41:13,839 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:13,898 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:13,964 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:13,997 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:13,997 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 12 states to 10 states and 12 transitions. [2018-12-02 02:41:13,997 INFO L276 IsEmpty]: Start isEmpty. Operand 10 states and 12 transitions. [2018-12-02 02:41:13,997 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 7 [2018-12-02 02:41:13,997 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:14,014 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:14,057 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:14,108 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:14,108 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 17 states to 12 states and 17 transitions. [2018-12-02 02:41:14,108 INFO L276 IsEmpty]: Start isEmpty. Operand 12 states and 17 transitions. [2018-12-02 02:41:14,108 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 8 [2018-12-02 02:41:14,108 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:14,176 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:14,223 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:14,288 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:14,289 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 22 states to 14 states and 22 transitions. [2018-12-02 02:41:14,289 INFO L276 IsEmpty]: Start isEmpty. Operand 14 states and 22 transitions. [2018-12-02 02:41:14,291 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 9 [2018-12-02 02:41:14,291 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:14,320 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:14,380 INFO L134 CoverageAnalysis]: Checked inductivity of 6 backedges. 0 proven. 6 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:14,451 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:14,451 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 27 states to 16 states and 27 transitions. [2018-12-02 02:41:14,451 INFO L276 IsEmpty]: Start isEmpty. Operand 16 states and 27 transitions. [2018-12-02 02:41:14,452 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 10 [2018-12-02 02:41:14,452 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:14,593 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-12-02 02:41:14,690 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-12-02 02:41:15,697 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is sat [2018-12-02 02:41:25,744 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unknown [2018-12-02 02:41:25,996 FATAL L292 ToolchainWalker]: The Plugin de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck has thrown an exception: java.lang.AssertionError: program execution has not yet been computed at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.TraceCheck.getRcfgProgramExecution(TraceCheck.java:440) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.TraceCheck.computeRcfgProgramExecutionAndDecodeBranches(TraceCheck.java:342) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.TraceCheck.(TraceCheck.java:227) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.InterpolatingTraceCheck.(InterpolatingTraceCheck.java:97) at de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.TraceCheckSpWp.(TraceCheckSpWp.java:134) at de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck.CodeCheckObserver.createTraceCheck(CodeCheckObserver.java:628) at de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck.CodeCheckObserver.process(CodeCheckObserver.java:458) at de.uni_freiburg.informatik.ultimate.core.coreplugin.modelwalker.CFGWalker.runObserver(CFGWalker.java:57) at de.uni_freiburg.informatik.ultimate.core.coreplugin.modelwalker.BaseWalker.runObserver(BaseWalker.java:93) at de.uni_freiburg.informatik.ultimate.core.coreplugin.modelwalker.BaseWalker.run(BaseWalker.java:86) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.runObserver(PluginConnector.java:167) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.runTool(PluginConnector.java:151) at de.uni_freiburg.informatik.ultimate.core.coreplugin.PluginConnector.run(PluginConnector.java:128) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.executePluginConnector(ToolchainWalker.java:232) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.processPlugin(ToolchainWalker.java:226) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.walkUnprotected(ToolchainWalker.java:142) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainWalker.walk(ToolchainWalker.java:104) at de.uni_freiburg.informatik.ultimate.core.coreplugin.ToolchainManager$Toolchain.processToolchain(ToolchainManager.java:316) at de.uni_freiburg.informatik.ultimate.core.coreplugin.toolchain.DefaultToolchainJob.run(DefaultToolchainJob.java:145) at org.eclipse.core.internal.jobs.Worker.run(Worker.java:55) [2018-12-02 02:41:25,998 INFO L168 Benchmark]: Toolchain (without parser) took 12877.46 ms. Allocated memory was 1.0 GB in the beginning and 1.1 GB in the end (delta: 91.2 MB). Free memory was 952.2 MB in the beginning and 1.1 GB in the end (delta: -129.0 MB). There was no memory consumed. Max. memory is 11.5 GB. [2018-12-02 02:41:25,999 INFO L168 Benchmark]: CDTParser took 0.11 ms. Allocated memory is still 1.0 GB. Free memory is still 979.6 MB. There was no memory consumed. Max. memory is 11.5 GB. [2018-12-02 02:41:25,999 INFO L168 Benchmark]: CACSL2BoogieTranslator took 157.96 ms. Allocated memory is still 1.0 GB. Free memory was 952.2 MB in the beginning and 941.4 MB in the end (delta: 10.8 MB). Peak memory consumption was 10.8 MB. Max. memory is 11.5 GB. [2018-12-02 02:41:25,999 INFO L168 Benchmark]: Boogie Procedure Inliner took 53.53 ms. Allocated memory was 1.0 GB in the beginning and 1.1 GB in the end (delta: 91.2 MB). Free memory was 941.4 MB in the beginning and 1.1 GB in the end (delta: -150.5 MB). Peak memory consumption was 15.6 MB. Max. memory is 11.5 GB. [2018-12-02 02:41:26,000 INFO L168 Benchmark]: Boogie Preprocessor took 15.28 ms. Allocated memory is still 1.1 GB. Free memory was 1.1 GB in the beginning and 1.1 GB in the end (delta: 2.7 MB). Peak memory consumption was 2.7 MB. Max. memory is 11.5 GB. [2018-12-02 02:41:26,000 INFO L168 Benchmark]: RCFGBuilder took 455.09 ms. Allocated memory is still 1.1 GB. Free memory was 1.1 GB in the beginning and 1.0 GB in the end (delta: 69.2 MB). Peak memory consumption was 69.2 MB. Max. memory is 11.5 GB. [2018-12-02 02:41:26,000 INFO L168 Benchmark]: CodeCheck took 12193.05 ms. Allocated memory is still 1.1 GB. Free memory was 1.0 GB in the beginning and 1.1 GB in the end (delta: -61.3 MB). There was no memory consumed. Max. memory is 11.5 GB. [2018-12-02 02:41:26,002 INFO L336 ainManager$Toolchain]: ####################### End [Toolchain 1] ####################### --- Results --- * Results from de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck: - ExceptionOrErrorResult: AssertionError: program execution has not yet been computed de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck: AssertionError: program execution has not yet been computed: de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.singletracecheck.TraceCheck.getRcfgProgramExecution(TraceCheck.java:440) * Results from de.uni_freiburg.informatik.ultimate.core: - StatisticsResult: Toolchain Benchmarks Benchmark results are: * CDTParser took 0.11 ms. Allocated memory is still 1.0 GB. Free memory is still 979.6 MB. There was no memory consumed. Max. memory is 11.5 GB. * CACSL2BoogieTranslator took 157.96 ms. Allocated memory is still 1.0 GB. Free memory was 952.2 MB in the beginning and 941.4 MB in the end (delta: 10.8 MB). Peak memory consumption was 10.8 MB. Max. memory is 11.5 GB. * Boogie Procedure Inliner took 53.53 ms. Allocated memory was 1.0 GB in the beginning and 1.1 GB in the end (delta: 91.2 MB). Free memory was 941.4 MB in the beginning and 1.1 GB in the end (delta: -150.5 MB). Peak memory consumption was 15.6 MB. Max. memory is 11.5 GB. * Boogie Preprocessor took 15.28 ms. Allocated memory is still 1.1 GB. Free memory was 1.1 GB in the beginning and 1.1 GB in the end (delta: 2.7 MB). Peak memory consumption was 2.7 MB. Max. memory is 11.5 GB. * RCFGBuilder took 455.09 ms. Allocated memory is still 1.1 GB. Free memory was 1.1 GB in the beginning and 1.0 GB in the end (delta: 69.2 MB). Peak memory consumption was 69.2 MB. Max. memory is 11.5 GB. * CodeCheck took 12193.05 ms. Allocated memory is still 1.1 GB. Free memory was 1.0 GB in the beginning and 1.1 GB in the end (delta: -61.3 MB). There was no memory consumed. Max. memory is 11.5 GB. RESULT: Ultimate could not prove your program: Toolchain returned no result. Received shutdown request... ### Bit-precise run ### This is Ultimate 0.1.23-635dfa2 [2018-12-02 02:41:27,287 INFO L170 SettingsManager]: Resetting all preferences to default values... [2018-12-02 02:41:27,288 INFO L174 SettingsManager]: Resetting UltimateCore preferences to default values [2018-12-02 02:41:27,296 INFO L177 SettingsManager]: Ultimate Commandline Interface provides no preferences, ignoring... [2018-12-02 02:41:27,296 INFO L174 SettingsManager]: Resetting Boogie Preprocessor preferences to default values [2018-12-02 02:41:27,297 INFO L174 SettingsManager]: Resetting Boogie Procedure Inliner preferences to default values [2018-12-02 02:41:27,297 INFO L174 SettingsManager]: Resetting Abstract Interpretation preferences to default values [2018-12-02 02:41:27,298 INFO L174 SettingsManager]: Resetting LassoRanker preferences to default values [2018-12-02 02:41:27,299 INFO L174 SettingsManager]: Resetting Reaching Definitions preferences to default values [2018-12-02 02:41:27,300 INFO L174 SettingsManager]: Resetting SyntaxChecker preferences to default values [2018-12-02 02:41:27,300 INFO L177 SettingsManager]: Büchi Program Product provides no preferences, ignoring... [2018-12-02 02:41:27,300 INFO L174 SettingsManager]: Resetting LTL2Aut preferences to default values [2018-12-02 02:41:27,301 INFO L174 SettingsManager]: Resetting PEA to Boogie preferences to default values [2018-12-02 02:41:27,301 INFO L174 SettingsManager]: Resetting BlockEncodingV2 preferences to default values [2018-12-02 02:41:27,302 INFO L174 SettingsManager]: Resetting ChcToBoogie preferences to default values [2018-12-02 02:41:27,302 INFO L174 SettingsManager]: Resetting AutomataScriptInterpreter preferences to default values [2018-12-02 02:41:27,303 INFO L174 SettingsManager]: Resetting BuchiAutomizer preferences to default values [2018-12-02 02:41:27,304 INFO L174 SettingsManager]: Resetting CACSL2BoogieTranslator preferences to default values [2018-12-02 02:41:27,305 INFO L174 SettingsManager]: Resetting CodeCheck preferences to default values [2018-12-02 02:41:27,306 INFO L174 SettingsManager]: Resetting InvariantSynthesis preferences to default values [2018-12-02 02:41:27,306 INFO L174 SettingsManager]: Resetting RCFGBuilder preferences to default values [2018-12-02 02:41:27,307 INFO L174 SettingsManager]: Resetting TraceAbstraction preferences to default values [2018-12-02 02:41:27,308 INFO L177 SettingsManager]: TraceAbstractionConcurrent provides no preferences, ignoring... [2018-12-02 02:41:27,308 INFO L177 SettingsManager]: TraceAbstractionWithAFAs provides no preferences, ignoring... [2018-12-02 02:41:27,308 INFO L174 SettingsManager]: Resetting TreeAutomizer preferences to default values [2018-12-02 02:41:27,309 INFO L174 SettingsManager]: Resetting IcfgTransformer preferences to default values [2018-12-02 02:41:27,310 INFO L174 SettingsManager]: Resetting Boogie Printer preferences to default values [2018-12-02 02:41:27,310 INFO L174 SettingsManager]: Resetting ReqPrinter preferences to default values [2018-12-02 02:41:27,311 INFO L174 SettingsManager]: Resetting Witness Printer preferences to default values [2018-12-02 02:41:27,312 INFO L177 SettingsManager]: Boogie PL CUP Parser provides no preferences, ignoring... [2018-12-02 02:41:27,312 INFO L174 SettingsManager]: Resetting CDTParser preferences to default values [2018-12-02 02:41:27,312 INFO L177 SettingsManager]: AutomataScriptParser provides no preferences, ignoring... [2018-12-02 02:41:27,312 INFO L177 SettingsManager]: ReqParser provides no preferences, ignoring... [2018-12-02 02:41:27,313 INFO L174 SettingsManager]: Resetting SmtParser preferences to default values [2018-12-02 02:41:27,313 INFO L174 SettingsManager]: Resetting Witness Parser preferences to default values [2018-12-02 02:41:27,314 INFO L181 SettingsManager]: Finished resetting all preferences to default values... [2018-12-02 02:41:27,315 INFO L98 SettingsManager]: Beginning loading settings from /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/config/svcomp-Reach-32bit-Kojak_Bitvector.epf [2018-12-02 02:41:27,323 INFO L110 SettingsManager]: Loading preferences was successful [2018-12-02 02:41:27,323 INFO L112 SettingsManager]: Preferences different from defaults after loading the file: [2018-12-02 02:41:27,323 INFO L131 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2018-12-02 02:41:27,324 INFO L133 SettingsManager]: * ... to procedures called more than once=ALWAYS [2018-12-02 02:41:27,324 INFO L131 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2018-12-02 02:41:27,324 INFO L133 SettingsManager]: * Create parallel compositions if possible=false [2018-12-02 02:41:27,324 INFO L131 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2018-12-02 02:41:27,324 INFO L133 SettingsManager]: * sizeof long=4 [2018-12-02 02:41:27,324 INFO L133 SettingsManager]: * sizeof POINTER=4 [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Check division by zero=IGNORE [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Use bitvectors instead of ints=true [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Memory model=HoenickeLindenmann_4ByteResolution [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * sizeof long double=12 [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Check if freed pointer was valid=false [2018-12-02 02:41:27,325 INFO L133 SettingsManager]: * Use constant arrays=true [2018-12-02 02:41:27,326 INFO L133 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2018-12-02 02:41:27,326 INFO L131 SettingsManager]: Preferences of CodeCheck differ from their defaults: [2018-12-02 02:41:27,326 INFO L133 SettingsManager]: * Timeout in seconds=1000000 [2018-12-02 02:41:27,326 INFO L131 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2018-12-02 02:41:27,326 INFO L133 SettingsManager]: * To the following directory=./dump/ [2018-12-02 02:41:27,326 INFO L133 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:10000 [2018-12-02 02:41:27,326 INFO L131 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2018-12-02 02:41:27,326 INFO L133 SettingsManager]: * Compute Interpolants along a Counterexample=FPandBP [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * Use separate solver for trace checks=false [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * Trace refinement strategy=WALRUS [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * SMT solver=External_ModelsAndUnsatCoreMode [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * Command for external solver=cvc4 --incremental --rewrite-divk --print-success --lang smt [2018-12-02 02:41:27,327 INFO L133 SettingsManager]: * Logic for external solver=AUFBV [2018-12-02 02:41:27,327 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_2f355006-d808-449d-9050-df0b9a582fac/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 -> 6e973c5cecb5d30af2cf4ea74d1b0b1563334ffe [2018-12-02 02:41:27,350 INFO L81 nceAwareModelManager]: Repository-Root is: /tmp [2018-12-02 02:41:27,357 INFO L258 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2018-12-02 02:41:27,359 INFO L214 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2018-12-02 02:41:27,360 INFO L271 PluginConnector]: Initializing CDTParser... [2018-12-02 02:41:27,360 INFO L276 PluginConnector]: CDTParser initialized [2018-12-02 02:41:27,361 INFO L418 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/../../sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i [2018-12-02 02:41:27,395 INFO L221 CDTParser]: Created temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/0756d9b1a/1867b9766f8846c0aa5d6dc2525b12c5/FLAG513185997 [2018-12-02 02:41:27,783 INFO L307 CDTParser]: Found 1 translation units. [2018-12-02 02:41:27,784 INFO L161 CDTParser]: Scanning /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/sv-benchmarks/c/bitvector/byte_add_1_true-unreach-call_true-no-overflow_true-termination.i [2018-12-02 02:41:27,788 INFO L355 CDTParser]: About to delete temporary CDT project at /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/0756d9b1a/1867b9766f8846c0aa5d6dc2525b12c5/FLAG513185997 [2018-12-02 02:41:27,796 INFO L363 CDTParser]: Successfully deleted /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/data/0756d9b1a/1867b9766f8846c0aa5d6dc2525b12c5 [2018-12-02 02:41:27,797 INFO L296 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2018-12-02 02:41:27,798 INFO L131 ToolchainWalker]: Walking toolchain with 6 elements. [2018-12-02 02:41:27,799 INFO L113 PluginConnector]: ------------------------CACSL2BoogieTranslator---------------------------- [2018-12-02 02:41:27,799 INFO L271 PluginConnector]: Initializing CACSL2BoogieTranslator... [2018-12-02 02:41:27,801 INFO L276 PluginConnector]: CACSL2BoogieTranslator initialized [2018-12-02 02:41:27,801 INFO L185 PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,803 INFO L205 PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@5c5a08fc and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27, skipping insertion in model container [2018-12-02 02:41:27,803 INFO L185 PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,807 INFO L145 MainTranslator]: Starting translation in SV-COMP mode [2018-12-02 02:41:27,819 INFO L176 MainTranslator]: Built tables and reachable declarations [2018-12-02 02:41:27,920 INFO L203 PostProcessor]: Analyzing one entry point: main [2018-12-02 02:41:27,922 INFO L191 MainTranslator]: Completed pre-run [2018-12-02 02:41:27,944 INFO L203 PostProcessor]: Analyzing one entry point: main [2018-12-02 02:41:27,952 INFO L195 MainTranslator]: Completed translation [2018-12-02 02:41:27,953 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27 WrapperNode [2018-12-02 02:41:27,953 INFO L132 PluginConnector]: ------------------------ END CACSL2BoogieTranslator---------------------------- [2018-12-02 02:41:27,953 INFO L113 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2018-12-02 02:41:27,953 INFO L271 PluginConnector]: Initializing Boogie Procedure Inliner... [2018-12-02 02:41:27,953 INFO L276 PluginConnector]: Boogie Procedure Inliner initialized [2018-12-02 02:41:27,958 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,964 INFO L185 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,977 INFO L132 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2018-12-02 02:41:27,977 INFO L113 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2018-12-02 02:41:27,977 INFO L271 PluginConnector]: Initializing Boogie Preprocessor... [2018-12-02 02:41:27,978 INFO L276 PluginConnector]: Boogie Preprocessor initialized [2018-12-02 02:41:27,983 INFO L185 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,983 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,985 INFO L185 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:27,985 INFO L185 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:28,021 INFO L185 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:28,025 INFO L185 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:28,026 INFO L185 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... [2018-12-02 02:41:28,028 INFO L132 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2018-12-02 02:41:28,028 INFO L113 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2018-12-02 02:41:28,028 INFO L271 PluginConnector]: Initializing RCFGBuilder... [2018-12-02 02:41:28,028 INFO L276 PluginConnector]: RCFGBuilder initialized [2018-12-02 02:41:28,029 INFO L185 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 02.12 02:41:27" (1/1) ... No working directory specified, using /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/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 [2018-12-02 02:41:28,060 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2018-12-02 02:41:28,061 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2018-12-02 02:41:28,535 INFO L275 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2018-12-02 02:41:28,536 INFO L280 CfgBuilder]: Removed 10 assue(true) statements. [2018-12-02 02:41:28,536 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 02.12 02:41:28 BoogieIcfgContainer [2018-12-02 02:41:28,536 INFO L132 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2018-12-02 02:41:28,537 INFO L113 PluginConnector]: ------------------------CodeCheck---------------------------- [2018-12-02 02:41:28,537 INFO L271 PluginConnector]: Initializing CodeCheck... [2018-12-02 02:41:28,544 INFO L276 PluginConnector]: CodeCheck initialized [2018-12-02 02:41:28,544 INFO L185 PluginConnector]: Executing the observer CodeCheckObserver from plugin CodeCheck for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 02.12 02:41:28" (1/1) ... [2018-12-02 02:41:28,551 INFO L141 PredicateUnifier]: Initialized classic predicate unifier [2018-12-02 02:41:28,567 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:28,571 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 10 states to 8 states and 10 transitions. [2018-12-02 02:41:28,572 INFO L276 IsEmpty]: Start isEmpty. Operand 8 states and 10 transitions. [2018-12-02 02:41:28,573 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 6 [2018-12-02 02:41:28,573 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:28,606 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:41:28,618 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:28,624 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:41:28,649 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:28,693 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:28,694 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 13 states to 10 states and 13 transitions. [2018-12-02 02:41:28,694 INFO L276 IsEmpty]: Start isEmpty. Operand 10 states and 13 transitions. [2018-12-02 02:41:28,694 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 7 [2018-12-02 02:41:28,694 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:28,695 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:41:28,710 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:28,711 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:41:28,717 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:28,783 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:28,784 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 16 states to 12 states and 16 transitions. [2018-12-02 02:41:28,784 INFO L276 IsEmpty]: Start isEmpty. Operand 12 states and 16 transitions. [2018-12-02 02:41:28,784 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 8 [2018-12-02 02:41:28,784 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:28,785 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:41:28,798 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:28,800 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:41:28,808 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:28,885 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:28,885 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 19 states to 14 states and 19 transitions. [2018-12-02 02:41:28,885 INFO L276 IsEmpty]: Start isEmpty. Operand 14 states and 19 transitions. [2018-12-02 02:41:28,885 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 9 [2018-12-02 02:41:28,886 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:28,886 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:41:28,904 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:28,906 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:41:28,917 INFO L134 CoverageAnalysis]: Checked inductivity of 6 backedges. 0 proven. 6 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:41:28,985 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:41:28,986 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 21 states to 16 states and 21 transitions. [2018-12-02 02:41:28,986 INFO L276 IsEmpty]: Start isEmpty. Operand 16 states and 21 transitions. [2018-12-02 02:41:28,986 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 10 [2018-12-02 02:41:28,986 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:41:28,987 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:41:29,223 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:41:29,231 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:41:29,375 WARN L180 SmtUtils]: Spent 121.00 ms on a formula simplification. DAG size of input: 104 DAG size of output: 80 [2018-12-02 02:41:30,428 WARN L180 SmtUtils]: Spent 973.00 ms on a formula simplification. DAG size of input: 144 DAG size of output: 99 [2018-12-02 02:41:32,481 WARN L180 SmtUtils]: Spent 1.92 s on a formula simplification. DAG size of input: 217 DAG size of output: 198 [2018-12-02 02:41:32,675 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:34,012 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:35,386 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:36,910 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:38,308 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:38,321 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 5632 conjuctions. This might take some time... [2018-12-02 02:41:40,747 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 5632 conjuctions. [2018-12-02 02:41:40,762 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 9 [2018-12-02 02:41:40,787 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 8192 conjuctions. This might take some time... [2018-12-02 02:41:46,414 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 8192 conjuctions. [2018-12-02 02:41:46,445 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:48,095 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:41:48,209 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 47872 conjuctions. This might take some time... [2018-12-02 02:44:59,011 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 47872 conjuctions. [2018-12-02 02:45:07,251 WARN L180 SmtUtils]: Spent 6.44 s on a formula simplification. DAG size of input: 536 DAG size of output: 180 [2018-12-02 02:45:07,725 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:07,750 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:45:16,074 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:45:16,107 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:16,130 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:45:23,667 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:45:23,703 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:23,720 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:45:32,322 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:45:32,364 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:32,390 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:45:44,831 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:45:44,860 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:44,889 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:45:52,502 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:45:52,536 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:45:52,551 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:00,656 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:00,690 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2018-12-02 02:46:00,709 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 5440 conjuctions. This might take some time... [2018-12-02 02:46:02,681 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 5440 conjuctions. [2018-12-02 02:46:02,699 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:02,715 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:12,223 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:12,262 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:12,285 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:20,744 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:20,780 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:20,796 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:29,558 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:29,595 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:29,624 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:37,377 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:37,407 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:37,423 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:45,014 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:46:45,052 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2018-12-02 02:46:45,060 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 5440 conjuctions. This might take some time... [2018-12-02 02:46:46,855 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 5440 conjuctions. [2018-12-02 02:46:46,872 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:46:46,895 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 10880 conjuctions. This might take some time... [2018-12-02 02:46:53,977 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 10880 conjuctions. [2018-12-02 02:47:00,508 WARN L180 SmtUtils]: Spent 4.91 s on a formula simplification. DAG size of input: 346 DAG size of output: 205 [2018-12-02 02:47:02,156 WARN L180 SmtUtils]: Spent 1.54 s on a formula simplification. DAG size of input: 162 DAG size of output: 132 [2018-12-02 02:47:02,251 INFO L134 CoverageAnalysis]: Checked inductivity of 10 backedges. 0 proven. 10 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:47:02,869 WARN L180 SmtUtils]: Spent 298.00 ms on a formula simplification that was a NOOP. DAG size: 100 [2018-12-02 02:47:03,564 WARN L180 SmtUtils]: Spent 676.00 ms on a formula simplification. DAG size of input: 101 DAG size of output: 101 [2018-12-02 02:47:03,953 WARN L180 SmtUtils]: Spent 314.00 ms on a formula simplification that was a NOOP. DAG size: 102 [2018-12-02 02:47:05,868 WARN L180 SmtUtils]: Spent 1.79 s on a formula simplification. DAG size of input: 197 DAG size of output: 197 [2018-12-02 02:47:07,605 WARN L180 SmtUtils]: Spent 1.69 s on a formula simplification. DAG size of input: 198 DAG size of output: 198 [2018-12-02 02:47:08,613 WARN L180 SmtUtils]: Spent 901.00 ms on a formula simplification that was a NOOP. DAG size: 199 [2018-12-02 02:47:10,241 WARN L180 SmtUtils]: Spent 1.30 s on a formula simplification that was a NOOP. DAG size: 181 [2018-12-02 02:47:12,869 WARN L180 SmtUtils]: Spent 2.57 s on a formula simplification. DAG size of input: 182 DAG size of output: 182 [2018-12-02 02:47:14,322 WARN L180 SmtUtils]: Spent 1.31 s on a formula simplification that was a NOOP. DAG size: 183 [2018-12-02 02:47:16,114 WARN L180 SmtUtils]: Spent 1.55 s on a formula simplification that was a NOOP. DAG size: 206 [2018-12-02 02:47:17,790 WARN L180 SmtUtils]: Spent 1.60 s on a formula simplification that was a NOOP. DAG size: 219 [2018-12-02 02:47:19,553 WARN L180 SmtUtils]: Spent 1.56 s on a formula simplification that was a NOOP. DAG size: 220 [2018-12-02 02:47:20,216 WARN L180 SmtUtils]: Spent 350.00 ms on a formula simplification that was a NOOP. DAG size: 149 [2018-12-02 02:47:20,725 WARN L180 SmtUtils]: Spent 334.00 ms on a formula simplification that was a NOOP. DAG size: 133 [2018-12-02 02:47:21,153 WARN L180 SmtUtils]: Spent 371.00 ms on a formula simplification that was a NOOP. DAG size: 150 [2018-12-02 02:47:21,640 WARN L180 SmtUtils]: Spent 342.00 ms on a formula simplification that was a NOOP. DAG size: 150 [2018-12-02 02:47:22,163 WARN L180 SmtUtils]: Spent 359.00 ms on a formula simplification that was a NOOP. DAG size: 151 [2018-12-02 02:47:22,359 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:47:22,360 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 36 states to 23 states and 36 transitions. [2018-12-02 02:47:22,360 INFO L276 IsEmpty]: Start isEmpty. Operand 23 states and 36 transitions. [2018-12-02 02:47:22,362 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 11 [2018-12-02 02:47:22,362 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:47:22,362 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:47:22,541 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:47:22,547 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:47:22,724 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:22,752 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 8 [2018-12-02 02:47:22,835 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:22,861 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:22,889 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:22,942 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:22,988 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:23,507 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:23,553 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 17408 conjuctions. This might take some time... [2018-12-02 02:47:43,441 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 17408 conjuctions. [2018-12-02 02:47:43,493 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 7 [2018-12-02 02:47:43,537 WARN L177 XnfTransformerHelper]: Simplifying disjunction of 17408 conjuctions. This might take some time... [2018-12-02 02:48:07,371 INFO L193 XnfTransformerHelper]: Simplified to disjunction of 17408 conjuctions. [2018-12-02 02:48:09,208 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2018-12-02 02:48:09,250 WARN L138 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2018-12-02 02:48:11,267 WARN L180 SmtUtils]: Spent 1.26 s on a formula simplification. DAG size of input: 241 DAG size of output: 146 [2018-12-02 02:48:11,818 WARN L180 SmtUtils]: Spent 334.00 ms on a formula simplification that was a NOOP. DAG size: 134 [2018-12-02 02:48:11,874 INFO L134 CoverageAnalysis]: Checked inductivity of 15 backedges. 0 proven. 15 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:48:12,532 WARN L180 SmtUtils]: Spent 457.00 ms on a formula simplification that was a NOOP. DAG size: 147 [2018-12-02 02:48:14,626 WARN L180 SmtUtils]: Spent 1.99 s on a formula simplification that was a NOOP. DAG size: 232 [2018-12-02 02:48:16,873 WARN L180 SmtUtils]: Spent 1.98 s on a formula simplification that was a NOOP. DAG size: 233 [2018-12-02 02:48:17,968 WARN L180 SmtUtils]: Spent 864.00 ms on a formula simplification. DAG size of input: 167 DAG size of output: 158 [2018-12-02 02:48:18,543 WARN L180 SmtUtils]: Spent 347.00 ms on a formula simplification that was a NOOP. DAG size: 135 [2018-12-02 02:48:19,341 WARN L180 SmtUtils]: Spent 676.00 ms on a formula simplification. DAG size of input: 168 DAG size of output: 150 [2018-12-02 02:48:19,874 WARN L180 SmtUtils]: Spent 346.00 ms on a formula simplification that was a NOOP. DAG size: 159 [2018-12-02 02:48:20,416 WARN L180 SmtUtils]: Spent 306.00 ms on a formula simplification that was a NOOP. DAG size: 151 [2018-12-02 02:48:20,490 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:48:20,491 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 42 states to 25 states and 42 transitions. [2018-12-02 02:48:20,491 INFO L276 IsEmpty]: Start isEmpty. Operand 25 states and 42 transitions. [2018-12-02 02:48:20,491 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 12 [2018-12-02 02:48:20,491 INFO L431 CodeCheckObserver]: Error Path is FOUND. [2018-12-02 02:48:20,492 ERROR L617 CodeCheckObserver]: First Tracecheck threw exception Indexed Sort BitVec undefined [2018-12-02 02:48:20,516 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2018-12-02 02:48:20,520 INFO L273 TraceCheckSpWp]: Computing forward predicates... [2018-12-02 02:48:21,323 INFO L134 CoverageAnalysis]: Checked inductivity of 21 backedges. 6 proven. 15 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2018-12-02 02:48:25,201 WARN L180 SmtUtils]: Spent 3.28 s on a formula simplification. DAG size of input: 235 DAG size of output: 234 [2018-12-02 02:48:28,948 WARN L180 SmtUtils]: Spent 3.49 s on a formula simplification. DAG size of input: 237 DAG size of output: 236 [2018-12-02 02:48:30,739 WARN L180 SmtUtils]: Spent 1.52 s on a formula simplification that was a NOOP. DAG size: 235 [2018-12-02 02:48:32,738 WARN L180 SmtUtils]: Spent 1.70 s on a formula simplification that was a NOOP. DAG size: 237 [2018-12-02 02:48:33,780 WARN L180 SmtUtils]: Spent 888.00 ms on a formula simplification. DAG size of input: 160 DAG size of output: 150 [2018-12-02 02:48:34,874 WARN L180 SmtUtils]: Spent 897.00 ms on a formula simplification. DAG size of input: 162 DAG size of output: 151 [2018-12-02 02:48:35,463 WARN L180 SmtUtils]: Spent 371.00 ms on a formula simplification that was a NOOP. DAG size: 151 [2018-12-02 02:48:36,195 WARN L180 SmtUtils]: Spent 474.00 ms on a formula simplification that was a NOOP. DAG size: 152 [2018-12-02 02:48:36,265 INFO L82 GeneralOperation]: Start removeUnreachable. Operand no size info available [2018-12-02 02:48:36,265 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 12 states to 12 states and 12 transitions. [2018-12-02 02:48:36,265 INFO L276 IsEmpty]: Start isEmpty. Operand 12 states and 12 transitions. [2018-12-02 02:48:36,265 INFO L282 IsEmpty]: Finished isEmpty. No accepting run. [2018-12-02 02:48:36,265 WARN L428 CodeCheckObserver]: This Program is SAFE, Check terminated with 8 iterations. [2018-12-02 02:48:36,271 INFO L779 CodeCheckObserver]: All specifications hold 1 specifications checked. All of them hold [2018-12-02 02:48:50,043 WARN L180 SmtUtils]: Spent 13.77 s on a formula simplification. DAG size of input: 444 DAG size of output: 444 [2018-12-02 02:48:50,697 WARN L180 SmtUtils]: Spent 653.00 ms on a formula simplification. DAG size of input: 171 DAG size of output: 149 [2018-12-02 02:48:50,698 INFO L583 CodeCheckObserver]: Invariant with dag size 444 [2018-12-02 02:48:50,770 INFO L583 CodeCheckObserver]: Invariant with dag size 149 [2018-12-02 02:48:50,773 INFO L583 CodeCheckObserver]: Invariant with dag size 1 [2018-12-02 02:48:50,773 INFO L202 PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck CFG 02.12 02:48:50 ImpRootNode [2018-12-02 02:48:50,773 INFO L132 PluginConnector]: ------------------------ END CodeCheck---------------------------- [2018-12-02 02:48:50,774 INFO L113 PluginConnector]: ------------------------Witness Printer---------------------------- [2018-12-02 02:48:50,774 INFO L271 PluginConnector]: Initializing Witness Printer... [2018-12-02 02:48:50,774 INFO L276 PluginConnector]: Witness Printer initialized [2018-12-02 02:48:50,774 INFO L185 PluginConnector]: Executing the observer RCFGCatcher from plugin Witness Printer for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 02.12 02:41:28" (3/4) ... [2018-12-02 02:48:50,776 INFO L144 WitnessPrinter]: Generating witness for correct program [2018-12-02 02:48:50,783 INFO L905 BoogieBacktranslator]: Reduced CFG by removing 28 nodes and edges [2018-12-02 02:48:50,783 INFO L905 BoogieBacktranslator]: Reduced CFG by removing 11 nodes and edges [2018-12-02 02:48:50,783 INFO L905 BoogieBacktranslator]: Reduced CFG by removing 2 nodes and edges [2018-12-02 02:48:50,854 INFO L145 WitnessManager]: Wrote witness to /tmp/vcloud-vcloud-master/worker/working_dir_2f355006-d808-449d-9050-df0b9a582fac/bin-2019/ukojak/witness.graphml [2018-12-02 02:48:50,854 INFO L132 PluginConnector]: ------------------------ END Witness Printer---------------------------- [2018-12-02 02:48:50,855 INFO L168 Benchmark]: Toolchain (without parser) took 443057.13 ms. Allocated memory was 1.0 GB in the beginning and 1.2 GB in the end (delta: 143.1 MB). Free memory was 944.7 MB in the beginning and 888.9 MB in the end (delta: 55.8 MB). Peak memory consumption was 198.9 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,855 INFO L168 Benchmark]: CDTParser took 0.11 ms. Allocated memory is still 1.0 GB. Free memory is still 972.9 MB. There was no memory consumed. Max. memory is 11.5 GB. [2018-12-02 02:48:50,855 INFO L168 Benchmark]: CACSL2BoogieTranslator took 154.35 ms. Allocated memory is still 1.0 GB. Free memory was 944.7 MB in the beginning and 928.6 MB in the end (delta: 16.1 MB). Peak memory consumption was 16.1 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,855 INFO L168 Benchmark]: Boogie Procedure Inliner took 23.94 ms. Allocated memory is still 1.0 GB. Free memory is still 928.6 MB. There was no memory consumed. Max. memory is 11.5 GB. [2018-12-02 02:48:50,856 INFO L168 Benchmark]: Boogie Preprocessor took 50.47 ms. Allocated memory was 1.0 GB in the beginning and 1.2 GB in the end (delta: 138.4 MB). Free memory was 928.6 MB in the beginning and 1.1 GB in the end (delta: -197.9 MB). Peak memory consumption was 14.1 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,856 INFO L168 Benchmark]: RCFGBuilder took 508.31 ms. Allocated memory is still 1.2 GB. Free memory was 1.1 GB in the beginning and 1.1 GB in the end (delta: 67.1 MB). Peak memory consumption was 67.1 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,856 INFO L168 Benchmark]: CodeCheck took 442236.67 ms. Allocated memory was 1.2 GB in the beginning and 1.2 GB in the end (delta: 4.7 MB). Free memory was 1.1 GB in the beginning and 916.6 MB in the end (delta: 142.8 MB). Peak memory consumption was 401.9 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,856 INFO L168 Benchmark]: Witness Printer took 80.73 ms. Allocated memory is still 1.2 GB. Free memory was 916.6 MB in the beginning and 888.9 MB in the end (delta: 27.7 MB). Peak memory consumption was 27.7 MB. Max. memory is 11.5 GB. [2018-12-02 02:48:50,857 INFO L336 ainManager$Toolchain]: ####################### End [Toolchain 1] ####################### --- Results --- * Results from de.uni_freiburg.informatik.ultimate.plugins.generator.codecheck: - StatisticsResult: Ultimate CodeCheck benchmark data CFG has 1 procedures, 41 locations, 1 error locations. SAFE Result, 427.7s OverallTime, 8 OverallIterations, 0 TraceHistogramMax, 0.0s AutomataDifference, 0.0s DeadEndRemovalTime, 0.0s HoareAnnotationTime, HoareTripleCheckerStatistics: 192 SDtfs, 360 SDslu, 0 SDs, 0 SdLazy, 2490 SolverSat, 1402 SolverUnsat, 0 SolverUnknown, 0 SolverNotchecked, 3.4s Time, PredicateUnifierStatistics: 0 DeclaredPredicates, 518 GetRequests, 435 SyntacticMatches, 11 SemanticMatches, 72 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 2362 ImplicationChecksByTransitivity, 63.1s Time, 0.0s BasicInterpolantAutomatonTime, BiggestAbstraction: size=-1occurred in iteration=-1, traceCheckStatistics: 0.0s SsaConstructionTime, 0.4s SatisfiabilityAnalysisTime, 383.2s InterpolantComputationTime, 56 NumberOfCodeBlocks, 56 NumberOfCodeBlocksAsserted, 7 NumberOfCheckSat, 49 ConstructedInterpolants, 0 QuantifiedInterpolants, 218054 SizeOfPredicates, 75 NumberOfNonLiveVariables, 399 ConjunctsInSsa, 145 ConjunctsInUnsatCore, 7 InterpolantComputations, 1 PerfectInterpolantSequences, 6/56 InterpolantCoveringCapability, InterpolantConsolidationStatistics: No data available, PathInvariantsStatistics: No data available, 0/0 InterpolantCoveringCapability, TotalInterpolationStatistics: No data available, 0.0s AbstIntTime, 0 AbstIntIterations, 0 AbstIntStrong, NaN AbsIntWeakeningRatio, NaN AbsIntAvgWeakeningVarsNumRemoved, NaN AbsIntAvgWeakenedConjuncts, 0.0s DumpTime, AutomataMinimizationStatistics: No data available, HoareAnnotationStatistics: No data available, RefinementEngineStatistics: No data available, ReuseStatistics: No data available - PositiveResult [Line: 6]: call of __VERIFIER_error() unreachable For all program executions holds that call of __VERIFIER_error() unreachable at this location - AllSpecificationsHoldResult: All specifications hold 1 specifications checked. All of them hold - InvariantResult [Line: 61]: Loop Invariant Derived loop invariant: ((((((((((((((((((((((((((((((((((((((((((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) || (((((((((((((((((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && r2 == ~zero_extendFrom16To32(a2)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || (((((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && r2 == ~zero_extendFrom16To32(a2)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || (((((((((((((((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) || (((((((((r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0] && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3)) || (((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0])) || (((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0])) && ~bvadd64(i, 251bv8) == 0bv8) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8)) || (((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32))) || ((((((~zero_extendFrom16To32(b3) == 0bv32 && ((!(0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(nb, 253bv8) == 0bv8) || (((~bvadd64(nb, 254bv8) == 0bv8 && !(0bv32 == ~zero_extendFrom16To32(b1))) || (~bvadd64(nb, 255bv8) == 0bv8 && 0bv32 == ~zero_extendFrom16To32(b1))) && 0bv32 == ~zero_extendFrom16To32(b2)))) || (~bvadd64(nb, 252bv8) == 0bv8 && !(~zero_extendFrom16To32(b3) == 0bv32))) && ~bvadd64(i, 252bv8) == 0bv8) && ~bvadd64(a3, 243bv8) == 0bv8) && ((((((((((((((((((((((((((((((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && !(~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32)) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1) || ((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && 1bv16 == carry) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3)) || ((((((((((((0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0][7:0] == r2) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]) == 0bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || ((((((((((0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]) == 0bv32) && ~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0][7:0] == r2) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0][7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry)) || ((((((((((!(~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0][7:0] == r3) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry)) || ((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32) && 1bv16 == carry) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0])) || ((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32) && 1bv16 == carry) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0])) || ((((((((((r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0] && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0][7:0] == r3) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && 0bv16 == carry)) || (((((((((((!~bvslt32(2bv32, ~zero_extendFrom16To32(nb)) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0][7:0]) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || ((((((((((1bv16 == carry && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0][7:0] == r3) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && 0bv16 == carry)) || (((((((((((r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0] && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r3 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && 0bv16 == carry)) || ((((((((((1bv16 == carry && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r3 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry)) || (((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0][7:0] == r3) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry)) || (((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r3 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry)) || ((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && 1bv16 == carry) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || ((((((((((1bv16 == carry && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0])) || ((((((((((r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0] && 1bv16 == carry) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((((((r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r3 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || ((((((((((0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]) == 0bv32) && ~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0][7:0] == r2) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && ~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0][7:0] == r1) && ~bvadd64(nb, 255bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry)) || (((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && !(~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32)) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && 0bv16 == carry)) || ((((((((((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry) && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0][7:0] == r2) && !(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]) == 0bv32)) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || (((((((((((!~bvslt32(2bv32, ~zero_extendFrom16To32(nb)) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r3 == ~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0][7:0]) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0][7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || (((((((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0][7:0] == r3) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || ((((((((((r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0][7:0] == r3) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && ~bvadd64(nb, 252bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0][7:0] == r3) && !(0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && 0bv16 == carry)) || ((((((((((!(~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]) == 0bv32) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0][7:0] == r3) && 0bv32 == ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0])) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry))) && ~bvadd64(na, 252bv8) == 0bv8)) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && 0bv32 == ~zero_extendFrom16To32(b1))) || ((((((((((((((((((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0] == r2 && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32))) || (((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ((~zero_extendFrom16To32(b3) == 0bv32 && ((!(0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(nb, 253bv8) == 0bv8) || (((~bvadd64(nb, 254bv8) == 0bv8 && !(0bv32 == ~zero_extendFrom16To32(b1))) || (~bvadd64(nb, 255bv8) == 0bv8 && 0bv32 == ~zero_extendFrom16To32(b1))) && 0bv32 == ~zero_extendFrom16To32(b2)))) || (~bvadd64(nb, 252bv8) == 0bv8 && !(~zero_extendFrom16To32(b3) == 0bv32)))) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && i == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((~bvadd64(r1, 255bv8) == 0bv8 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || ((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0][7:0]) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !(0bv32 == ~zero_extendFrom16To32(b2))) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((~bvadd64(r1, 255bv8) == 0bv8 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || ((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0][7:0]) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))))) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(nb)) && r1 == 0bv8) || (r1 == ~zero_extendFrom16To32(b1)[15:0][7:0] && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || (((~zero_extendFrom16To32(a1)[15:0][7:0] == r1 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))))) && 0bv32 == ~zero_extendFrom16To32(b1))) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(nb)) && r1 == 0bv8) || (r1 == ~zero_extendFrom16To32(b1)[15:0][7:0] && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || (((~zero_extendFrom16To32(a1)[15:0][7:0] == r1 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na)))))) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((~bvadd64(r1, 255bv8) == 0bv8 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || ((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0][7:0]) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))))) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(nb)) && r1 == 0bv8) || (r1 == ~zero_extendFrom16To32(b1)[15:0][7:0] && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || (((~zero_extendFrom16To32(a1)[15:0][7:0] == r1 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na)))))) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((~bvadd64(r1, 255bv8) == 0bv8 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || ((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0][7:0]) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))))) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && 0bv32 == ~zero_extendFrom16To32(b1))) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !(0bv32 == ~zero_extendFrom16To32(b2))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ((!~bvslt32(1bv32, ~zero_extendFrom16To32(nb)) && r1 == 0bv8) || (r1 == ~zero_extendFrom16To32(b1)[15:0][7:0] && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) || (((~zero_extendFrom16To32(a1)[15:0][7:0] == r1 && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) || ((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na)))))) && 0bv16 == carry)) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && !(0bv32 == ~zero_extendFrom16To32(b1))) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0][7:0] == r2) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || ((((((((((((((((((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (1bv16 == carry && ((((((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !(0bv32 == ~zero_extendFrom16To32(b2))) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32))) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !(0bv32 == ~zero_extendFrom16To32(b2))) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)[15:0][7:0])) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~bvadd64(nb, 254bv8) == 0bv8) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)[15:0][7:0])) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32) && !~bvslt32(1bv32, ~zero_extendFrom16To32(nb))) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(na))) || ((!~bvslt32(1bv32, ~zero_extendFrom16To32(na)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), 1bv32)[15:0]), 255bv32)[15:0][7:0])) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb))))) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && ~bvadd64(i, 254bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32))))) || (((((((((((((((((((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0] == r2 && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && ~bvadd64(i, 255bv8) == 0bv8) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && 0bv32 == ~zero_extendFrom16To32(b1))) || (((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && r2 == ~zero_extendFrom16To32(a2)[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b1))) || (((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !(0bv32 == ~zero_extendFrom16To32(b2))) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(nb, 253bv8) == 0bv8) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || (((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && a0 == a[7:0]) && ~zero_extendFrom16To32(a1)[15:0][7:0] == r1) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && ~bvadd64(nb, 255bv8) == 0bv8) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && r2 == ~zero_extendFrom16To32(a2)[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b1))) || (((((((((((((((((((~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0][7:0] == r1 && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && r0 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~zero_extendFrom16To32(a1)[15:0]))[15:0]), 255bv32)) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && 1bv16 == carry) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32)[15:0][7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0])) || ((((((((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && b[7:0] == b0) && ~bvadd64(~zero_extendFrom16To32(a2), 1bv32)[15:0][7:0] == r2) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]) && 0bv32 == ~zero_extendFrom16To32(b2)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && !~bvslt32(2bv32, ~zero_extendFrom16To32(nb))) && ~zero_extendFrom16To32(b3) == 0bv32) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && a2 == ~bvlshr32(a, 16bv32)[7:0]) && ~bvslt32(1bv32, ~zero_extendFrom16To32(nb)))) || (((((((((((((((((((!~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0]), 255bv32) && ~bvadd64(a, 4060196507bv32) == 0bv32) && b[7:0] == b0) && ~bvadd64(nb, 252bv8) == 0bv8) && a1 == ~bvlshr32(a, 8bv32)[7:0]) && r1 == ~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0][7:0]) && b1 == ~bvlshr32(b, 8bv32)[7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)[15:0][7:0] == r0) && r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a2)[15:0]), ~zero_extendFrom16To32(b2))[15:0][7:0]) && a3 == ~bvlshr32(a, 24bv32)[7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(a0)[15:0]), ~zero_extendFrom16To32(b0))[15:0]), 255bv32)) && 0bv16 == carry) && ~bvadd64(na, 252bv8) == 0bv8) && ~bvadd64(i, 253bv8) == 0bv8) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b1), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(a1), 1bv32)[15:0]))[15:0]), 255bv32)) && a0 == a[7:0]) && b3 == ~bvlshr32(b, 24bv32)[7:0]) && b2 == ~bvlshr32(b, 16bv32)[7:0]) && !(~zero_extendFrom16To32(b3) == 0bv32)) && a2 == ~bvlshr32(a, 16bv32)[7:0]) - InvariantResult [Line: 22]: Loop Invariant Derived loop invariant: (((!(i == 0bv8) && !(~bvadd64(i, 255bv8) == 0bv8)) && ((((((((((((((~bvadd64(a, 4060196507bv32) == 0bv32 && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) || (((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && ~bvadd64(a, 4060196507bv32) == 0bv32) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0]) && ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0][7:0] == r1)) || (((((((r2 == ~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0] && r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3)) || (((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0] == r1) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0][7:0])) || (((((((r1 == ~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0][7:0] && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r2 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && !~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r2 == ~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0][7:0]) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0])[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r3) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0])) || (((((((~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 24bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 24bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0] == r3 && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)) && ~bvadd64(a, 4060196507bv32) == 0bv32) && ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)[15:0][7:0] == r2) && r0 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(b[7:0]), ~zero_extendFrom16To32(~zero_extendFrom16To32(a[7:0])[15:0]))[15:0]), 255bv32)[15:0][7:0]) && ~bvsgt32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 16bv32)[7:0]), 1bv32)[15:0]), ~zero_extendFrom16To32(~bvlshr32(b, 16bv32)[7:0]))[15:0]), 255bv32)) && r1 == ~bvand32(~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(b, 8bv32)[7:0]), ~zero_extendFrom16To32(~bvadd64(~zero_extendFrom16To32(~bvlshr32(a, 8bv32)[7:0]), 1bv32)[15:0]))[15:0]), 255bv32)[15:0][7:0]))) && !(~bvadd64(i, 253bv8) == 0bv8)) && !(~bvadd64(i, 254bv8) == 0bv8) - InvariantResult [Line: 4]: Loop Invariant Derived loop invariant: 1 * Results from de.uni_freiburg.informatik.ultimate.core: - StatisticsResult: Toolchain Benchmarks Benchmark results are: * CDTParser took 0.11 ms. Allocated memory is still 1.0 GB. Free memory is still 972.9 MB. There was no memory consumed. Max. memory is 11.5 GB. * CACSL2BoogieTranslator took 154.35 ms. Allocated memory is still 1.0 GB. Free memory was 944.7 MB in the beginning and 928.6 MB in the end (delta: 16.1 MB). Peak memory consumption was 16.1 MB. Max. memory is 11.5 GB. * Boogie Procedure Inliner took 23.94 ms. Allocated memory is still 1.0 GB. Free memory is still 928.6 MB. There was no memory consumed. Max. memory is 11.5 GB. * Boogie Preprocessor took 50.47 ms. Allocated memory was 1.0 GB in the beginning and 1.2 GB in the end (delta: 138.4 MB). Free memory was 928.6 MB in the beginning and 1.1 GB in the end (delta: -197.9 MB). Peak memory consumption was 14.1 MB. Max. memory is 11.5 GB. * RCFGBuilder took 508.31 ms. Allocated memory is still 1.2 GB. Free memory was 1.1 GB in the beginning and 1.1 GB in the end (delta: 67.1 MB). Peak memory consumption was 67.1 MB. Max. memory is 11.5 GB. * CodeCheck took 442236.67 ms. Allocated memory was 1.2 GB in the beginning and 1.2 GB in the end (delta: 4.7 MB). Free memory was 1.1 GB in the beginning and 916.6 MB in the end (delta: 142.8 MB). Peak memory consumption was 401.9 MB. Max. memory is 11.5 GB. * Witness Printer took 80.73 ms. Allocated memory is still 1.2 GB. Free memory was 916.6 MB in the beginning and 888.9 MB in the end (delta: 27.7 MB). Peak memory consumption was 27.7 MB. Max. memory is 11.5 GB. RESULT: Ultimate proved your program to be correct! Received shutdown request...