java -Xmx6000000000 -jar ./plugins/org.eclipse.equinox.launcher_1.3.100.v20150511-1540.jar -data ./data --generate-csv --csv-dir ../../../releaseScripts/default/UAutomizer-linux/csv -tc ../../../trunk/examples/toolchains/AbstractInterpretationC.xml -s ../../../trunk/examples/settings/ai/eq-bench/svcomp-DerefFreeMemtrack-32bit-Automizer_Camel+AI_EQ.epf -i ../../../trunk/examples/svcomp/ldv-memsafety/memleaks_test10_true-valid-memsafety_true-termination.i


--------------------------------------------------------------------------------


This is Ultimate 0.1.23-6b94a2f
[2018-01-24 14:42:41,140 INFO  L170        SettingsManager]: Resetting all preferences to default values...
[2018-01-24 14:42:41,142 INFO  L174        SettingsManager]: Resetting UltimateCore preferences to default values
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[2018-01-24 14:42:41,186 INFO  L98         SettingsManager]: Beginning loading settings from /storage/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/settings/ai/eq-bench/svcomp-DerefFreeMemtrack-32bit-Automizer_Camel+AI_EQ.epf
[2018-01-24 14:42:41,195 INFO  L110        SettingsManager]: Loading preferences was successful
[2018-01-24 14:42:41,196 INFO  L112        SettingsManager]: Preferences different from defaults after loading the file:
[2018-01-24 14:42:41,197 INFO  L131        SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults:
[2018-01-24 14:42:41,197 INFO  L133        SettingsManager]:  * to procedures, called more than once=true
[2018-01-24 14:42:41,197 INFO  L131        SettingsManager]: Preferences of Abstract Interpretation differ from their defaults:
[2018-01-24 14:42:41,197 INFO  L133        SettingsManager]:  * Abstract domain for RCFG-of-the-future=VPDomain
[2018-01-24 14:42:41,197 INFO  L133        SettingsManager]:  * Use the RCFG-of-the-future interface=true
[2018-01-24 14:42:41,198 INFO  L131        SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults:
[2018-01-24 14:42:41,198 INFO  L133        SettingsManager]:  * sizeof long=4
[2018-01-24 14:42:41,199 INFO  L133        SettingsManager]:  * Check unreachability of error function in SV-COMP mode=false
[2018-01-24 14:42:41,199 INFO  L133        SettingsManager]:  * Overapproximate operations on floating types=true
[2018-01-24 14:42:41,199 INFO  L133        SettingsManager]:  * sizeof POINTER=4
[2018-01-24 14:42:41,199 INFO  L133        SettingsManager]:  * Check division by zero=IGNORE
[2018-01-24 14:42:41,199 INFO  L133        SettingsManager]:  * Check for the main procedure if all allocated memory was freed=true
[2018-01-24 14:42:41,200 INFO  L133        SettingsManager]:  * Bitprecise bitfields=true
[2018-01-24 14:42:41,200 INFO  L133        SettingsManager]:  * SV-COMP memtrack compatibility mode=true
[2018-01-24 14:42:41,200 INFO  L133        SettingsManager]:  * If two pointers are subtracted or compared they have the same base address=IGNORE
[2018-01-24 14:42:41,200 INFO  L133        SettingsManager]:  * sizeof long double=12
[2018-01-24 14:42:41,201 INFO  L131        SettingsManager]: Preferences of RCFGBuilder differ from their defaults:
[2018-01-24 14:42:41,201 INFO  L133        SettingsManager]:  * Size of a code block=SequenceOfStatements
[2018-01-24 14:42:41,201 INFO  L133        SettingsManager]:  * To the following directory=./dump/
[2018-01-24 14:42:41,201 INFO  L133        SettingsManager]:  * Add additional assume for each assert=false
[2018-01-24 14:42:41,201 INFO  L133        SettingsManager]:  * SMT solver=External_DefaultMode
[2018-01-24 14:42:41,202 INFO  L133        SettingsManager]:  * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000
[2018-01-24 14:42:41,202 INFO  L131        SettingsManager]: Preferences of TraceAbstraction differ from their defaults:
[2018-01-24 14:42:41,202 INFO  L133        SettingsManager]:  * Interpolant automaton=TWOTRACK
[2018-01-24 14:42:41,202 INFO  L133        SettingsManager]:  * Compute Interpolants along a Counterexample=FPandBP
[2018-01-24 14:42:41,202 INFO  L133        SettingsManager]:  * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles
[2018-01-24 14:42:41,203 INFO  L133        SettingsManager]:  * Trace refinement strategy=CAMEL
[2018-01-24 14:42:41,203 INFO  L133        SettingsManager]:  * SMT solver=External_ModelsAndUnsatCoreMode
[2018-01-24 14:42:41,203 INFO  L133        SettingsManager]:  * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in
[2018-01-24 14:42:41,203 INFO  L133        SettingsManager]:  * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true
[2018-01-24 14:42:41,204 INFO  L131        SettingsManager]: Preferences of IcfgTransformer differ from their defaults:
[2018-01-24 14:42:41,204 INFO  L133        SettingsManager]:  * TransformationType=HEAP_SEPARATOR
[2018-01-24 14:42:41,239 INFO  L81    nceAwareModelManager]: Repository-Root is: /tmp
[2018-01-24 14:42:41,253 INFO  L266   ainManager$Toolchain]: [Toolchain 1]: Parser(s) successfully initialized
[2018-01-24 14:42:41,258 INFO  L222   ainManager$Toolchain]: [Toolchain 1]: Toolchain data selected.
[2018-01-24 14:42:41,259 INFO  L271        PluginConnector]: Initializing CDTParser...
[2018-01-24 14:42:41,260 INFO  L276        PluginConnector]: CDTParser initialized
[2018-01-24 14:42:41,261 INFO  L431   ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /storage/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/svcomp/ldv-memsafety/memleaks_test10_true-valid-memsafety_true-termination.i
[2018-01-24 14:42:41,464 INFO  L304   ainManager$Toolchain]: ####################### [Toolchain 1] #######################
[2018-01-24 14:42:41,470 INFO  L131        ToolchainWalker]: Walking toolchain with 4 elements.
[2018-01-24 14:42:41,470 INFO  L113        PluginConnector]: ------------------------CACSL2BoogieTranslator----------------------------
[2018-01-24 14:42:41,470 INFO  L271        PluginConnector]: Initializing CACSL2BoogieTranslator...
[2018-01-24 14:42:41,475 INFO  L276        PluginConnector]: CACSL2BoogieTranslator initialized
[2018-01-24 14:42:41,476 INFO  L185        PluginConnector]: Executing the observer ACSLObjectContainerObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,479 INFO  L205        PluginConnector]: Invalid model from CACSL2BoogieTranslator for observer de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator.ACSLObjectContainerObserver@7207b160 and model type de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41, skipping insertion in model container
[2018-01-24 14:42:41,480 INFO  L185        PluginConnector]: Executing the observer CACSL2BoogieTranslatorObserver from plugin CACSL2BoogieTranslator for "CDTParser AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,498 INFO  L153             Dispatcher]: Using SV-COMP mode
[2018-01-24 14:42:41,547 INFO  L153             Dispatcher]: Using SV-COMP mode
[2018-01-24 14:42:41,655 INFO  L450          PostProcessor]: Settings: Checked method=main
[2018-01-24 14:42:41,671 INFO  L450          PostProcessor]: Settings: Checked method=main
[2018-01-24 14:42:41,679 INFO  L202        PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41 WrapperNode
[2018-01-24 14:42:41,679 INFO  L132        PluginConnector]: ------------------------ END CACSL2BoogieTranslator----------------------------
[2018-01-24 14:42:41,680 INFO  L113        PluginConnector]: ------------------------Boogie Preprocessor----------------------------
[2018-01-24 14:42:41,680 INFO  L271        PluginConnector]: Initializing Boogie Preprocessor...
[2018-01-24 14:42:41,680 INFO  L276        PluginConnector]: Boogie Preprocessor initialized
[2018-01-24 14:42:41,698 INFO  L185        PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,699 INFO  L185        PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,711 INFO  L185        PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,711 INFO  L185        PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,715 INFO  L185        PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,717 INFO  L185        PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,718 INFO  L185        PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
[2018-01-24 14:42:41,720 INFO  L132        PluginConnector]: ------------------------ END Boogie Preprocessor----------------------------
[2018-01-24 14:42:41,720 INFO  L113        PluginConnector]: ------------------------RCFGBuilder----------------------------
[2018-01-24 14:42:41,720 INFO  L271        PluginConnector]: Initializing RCFGBuilder...
[2018-01-24 14:42:41,721 INFO  L276        PluginConnector]: RCFGBuilder initialized
[2018-01-24 14:42:41,722 INFO  L185        PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "de.uni_freiburg.informatik.ultimate.plugins.generator.cacsl2boogietranslator AST 24.01 02:42:41" (1/1) ...
No working directory specified, using /storage/ultimate/releaseScripts/default/UAutomizer-linux/z3
Starting monitored process 1 with z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (exit command is (exit), workingDir is null)
Waiting until toolchain timeout for monitored process 1 with z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure ULTIMATE.init
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure ULTIMATE.start
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure ldv_malloc
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure alloc_10
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure free_10
[2018-01-24 14:42:41,774 INFO  L136     BoogieDeclarations]: Found implementation of procedure entry_point
[2018-01-24 14:42:41,775 INFO  L136     BoogieDeclarations]: Found implementation of procedure main
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure write~$Pointer$
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure read~$Pointer$
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure ULTIMATE.free
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure ULTIMATE.dealloc
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure #Ultimate.alloc
[2018-01-24 14:42:41,775 INFO  L128     BoogieDeclarations]: Found specification of procedure malloc
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure free
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure __VERIFIER_nondet_int
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure ldv_malloc
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure alloc_10
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure free_10
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure entry_point
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure main
[2018-01-24 14:42:41,776 INFO  L128     BoogieDeclarations]: Found specification of procedure ULTIMATE.init
[2018-01-24 14:42:41,777 INFO  L128     BoogieDeclarations]: Found specification of procedure ULTIMATE.start
[2018-01-24 14:42:42,135 INFO  L257             CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start)
[2018-01-24 14:42:42,136 INFO  L202        PluginConnector]: Adding new model de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.01 02:42:42 BoogieIcfgContainer
[2018-01-24 14:42:42,136 INFO  L132        PluginConnector]: ------------------------ END RCFGBuilder----------------------------
[2018-01-24 14:42:42,137 INFO  L113        PluginConnector]: ------------------------Abstract Interpretation----------------------------
[2018-01-24 14:42:42,137 INFO  L271        PluginConnector]: Initializing Abstract Interpretation...
[2018-01-24 14:42:42,137 INFO  L276        PluginConnector]: Abstract Interpretation initialized
[2018-01-24 14:42:42,139 INFO  L185        PluginConnector]: Executing the observer AbstractInterpretationRcfgObserver from plugin Abstract Interpretation for "de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 24.01 02:42:42" (1/1) ...
[2018-01-24 14:42:42,192 INFO  L101         FixpointEngine]: Starting fixpoint engine with domain VPDomain (maxUnwinding=3, maxParallelStates=2)
[2018-01-24 14:43:07,251 INFO  L259    AbstractInterpreter]: Some error location(s) were reachable
[2018-01-24 14:43:07,259 WARN  L343   cessorBacktranslator]: Generated EnsuresSpecification ensures #valid == old(#valid); is not ensure(true)
[2018-01-24 14:43:07,303 INFO  L268    AbstractInterpreter]: Visited 104 different actions 180 times. Merged at 33 different actions 42 times. Never widened. Found 7 fixpoints after 7 different actions. Largest state had 36 variables.
[2018-01-24 14:43:07,306 INFO  L132        PluginConnector]: ------------------------ END Abstract Interpretation----------------------------
[2018-01-24 14:43:07,307 INFO  L168              Benchmark]: Toolchain (without parser) took 25842.48 ms. Allocated memory was 306.2 MB in the beginning and 1.2 GB in the end (delta: 861.4 MB). Free memory was 265.2 MB in the beginning and 499.8 MB in the end (delta: -234.6 MB). Peak memory consumption was 626.8 MB. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,307 INFO  L168              Benchmark]: CDTParser took 0.19 ms. Allocated memory is still 306.2 MB. Free memory is still 271.2 MB. There was no memory consumed. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,308 INFO  L168              Benchmark]: CACSL2BoogieTranslator took 209.46 ms. Allocated memory is still 306.2 MB. Free memory was 265.2 MB in the beginning and 251.2 MB in the end (delta: 14.0 MB). Peak memory consumption was 14.0 MB. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,308 INFO  L168              Benchmark]: Boogie Preprocessor took 39.79 ms. Allocated memory is still 306.2 MB. Free memory was 251.2 MB in the beginning and 249.2 MB in the end (delta: 2.0 MB). Peak memory consumption was 2.0 MB. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,308 INFO  L168              Benchmark]: RCFGBuilder took 415.99 ms. Allocated memory is still 306.2 MB. Free memory was 249.2 MB in the beginning and 224.6 MB in the end (delta: 24.5 MB). Peak memory consumption was 24.5 MB. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,309 INFO  L168              Benchmark]: Abstract Interpretation took 25168.86 ms. Allocated memory was 306.2 MB in the beginning and 1.2 GB in the end (delta: 861.4 MB). Free memory was 224.6 MB in the beginning and 499.8 MB in the end (delta: -275.2 MB). Peak memory consumption was 586.2 MB. Max. memory is 5.3 GB.
[2018-01-24 14:43:07,310 INFO  L344   ainManager$Toolchain]: #######################  End [Toolchain 1] #######################
 --- Results ---
 * Results from de.uni_freiburg.informatik.ultimate.core:
  - StatisticsResult: Toolchain Benchmarks
    Benchmark results are:
 * CDTParser took 0.19 ms. Allocated memory is still 306.2 MB. Free memory is still 271.2 MB. There was no memory consumed. Max. memory is 5.3 GB.
 * CACSL2BoogieTranslator took 209.46 ms. Allocated memory is still 306.2 MB. Free memory was 265.2 MB in the beginning and 251.2 MB in the end (delta: 14.0 MB). Peak memory consumption was 14.0 MB. Max. memory is 5.3 GB.
 * Boogie Preprocessor took 39.79 ms. Allocated memory is still 306.2 MB. Free memory was 251.2 MB in the beginning and 249.2 MB in the end (delta: 2.0 MB). Peak memory consumption was 2.0 MB. Max. memory is 5.3 GB.
 * RCFGBuilder took 415.99 ms. Allocated memory is still 306.2 MB. Free memory was 249.2 MB in the beginning and 224.6 MB in the end (delta: 24.5 MB). Peak memory consumption was 24.5 MB. Max. memory is 5.3 GB.
 * Abstract Interpretation took 25168.86 ms. Allocated memory was 306.2 MB in the beginning and 1.2 GB in the end (delta: 861.4 MB). Free memory was 224.6 MB in the beginning and 499.8 MB in the end (delta: -275.2 MB). Peak memory consumption was 586.2 MB. Max. memory is 5.3 GB.
 * Results from de.uni_freiburg.informatik.ultimate.plugins.analysis.abstractinterpretationv2:
  - StatisticsResult: ArrayEqualityDomainStatistics
    
#Locations                               :      82 
LocStat_MAX_WEQGRAPH_SIZE                :       3 
LocStat_MAX_SIZEOF_WEQEDGELABEL          :       1 
LocStat_NO_SUPPORTING_EQUALITIES         :    1432 
LocStat_NO_SUPPORTING_DISEQUALITIES      :     562 
LocStat_NO_DISJUNCTIONS                  :    -164 
LocStat_MAX_NO_DISJUNCTIONS              :      -1 
#Transitions                             :     116 
TransStat_MAX_WEQGRAPH_SIZE              :       4 
TransStat_MAX_SIZEOF_WEQEDGELABEL        :       1 
TransStat_NO_SUPPORTING_EQUALITIES       :     209 
TransStat_NO_SUPPORTING_DISEQUALITIES    :      45 
TransStat_NO_DISJUNCTIONS                :     146 
TransStat_MAX_NO_DISJUNCTIONS            :       4 

  - StatisticsResult: EqConstraintFactoryStatistics
    
CONJOIN_DISJUNCTIVE(MILLISECONDS)        : 2.645986 
RENAME_VARIABLES(MILLISECONDS)           : 1.598824 
UNFREEZE(MILLISECONDS)                   : 0.000000 
CONJOIN(MILLISECONDS)                    : 2.597523 
PROJECTAWAY(MILLISECONDS)                : 43.563825 
ADD_WEAK_EQUALITY(MILLISECONDS)          : 0.068547 
DISJOIN(MILLISECONDS)                    : 0.315596 
RENAME_VARIABLES_DISJUNCTIVE(MILLISECONDS) : 1.626983 
ADD_EQUALITY(MILLISECONDS)               : 0.009702 
DISJOIN_DISJUNCTIVE(MILLISECONDS)        : 0.000000 
ADD_DISEQUALITY(MILLISECONDS)            : 0.004416 
#CONJOIN_DISJUNCTIVE                     :     296 
#RENAME_VARIABLES                        :     655 
#UNFREEZE                                :       0 
#CONJOIN                                 :     646 
#PROJECTAWAY                             :     471 
#ADD_WEAK_EQUALITY                       :      19 
#DISJOIN                                 :      92 
#RENAME_VARIABLES_DISJUNCTIVE            :     582 
#ADD_EQUALITY                            :     183 
#DISJOIN_DISJUNCTIVE                     :       0 
#ADD_DISEQUALITY                         :      40 

  - UnprovableResult [Line: 1472]: Unable to prove that all allocated memory was freed
    Unable to prove that all allocated memory was freed
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL            entry_point()
[L1455]  CALL, EXPR      ldv_malloc(sizeof(struct A10))
[L1073]  COND FALSE      !(__VERIFIER_nondet_int())
[L1076]  RET             return 0;
[L1455]  EXPR            ldv_malloc(sizeof(struct A10))
[L1455]                  struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND TRUE, RET  !a10
[L1473]                  entry_point()

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  FCALL        a10->b->c

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND TRUE    !a10->b->c
[L1467]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  FCALL        a->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  FCALL        a->b->c

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  FCALL        a->b->c->p = (int *)ldv_malloc(sizeof(int))

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  FCALL        a->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  FCALL        a->b->c

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  FCALL        a->b->c

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  FCALL        a->b->c->p

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  FCALL        a->b->c->p

  - UnprovableResult [Line: 1]: Unable to prove that free always succeeds
    Unable to prove that free always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  FCALL        free(a->b->c->p)

  - UnprovableResult [Line: 1]: Unable to prove that free always succeeds
    Unable to prove that free always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  FCALL        free(a->b->c->p)

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  FCALL        a10->b

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  EXPR, FCALL  a10->b
[L1465]  FCALL        a10->b->c

  - UnprovableResult [Line: 1]: Unable to prove that pointer dereference always succeeds
    Unable to prove that pointer dereference always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  EXPR, FCALL  a10->b
[L1465]  FCALL        a10->b->c

  - UnprovableResult [Line: 1]: Unable to prove that free always succeeds
    Unable to prove that free always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  EXPR, FCALL  a10->b
[L1465]  EXPR, FCALL  a10->b->c
[L1465]  FCALL        free(a10->b->c)

  - UnprovableResult [Line: 1]: Unable to prove that free always succeeds
    Unable to prove that free always succeeds
 Reason: abstract domain could reach this error location. 
Possible FailurePath: 
[L1473]  CALL         entry_point()
[L1455]  CALL, EXPR   ldv_malloc(sizeof(struct A10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1455]  EXPR         ldv_malloc(sizeof(struct A10))
[L1455]               struct A10 *a10 = (struct A10 *)ldv_malloc(sizeof(struct A10));
[L1456]  COND FALSE   !(!a10)
[L1457]  CALL, EXPR   ldv_malloc(sizeof(struct B10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1457]  EXPR         ldv_malloc(sizeof(struct B10))
[L1457]  FCALL        a10->b = (struct B10 *)ldv_malloc(sizeof(struct B10))
[L1458]  EXPR, FCALL  a10->b
[L1458]  COND FALSE   !(!a10->b)
[L1459]  EXPR, FCALL  a10->b
[L1459]  CALL, EXPR   ldv_malloc(sizeof(struct C10))
[L1073]  COND TRUE    __VERIFIER_nondet_int()
[L1074]  EXPR, FCALL  malloc(size)
[L1074]  RET          return malloc(size);
[L1459]  EXPR         ldv_malloc(sizeof(struct C10))
[L1459]  FCALL        a10->b->c = (struct C10 *)ldv_malloc(sizeof(struct C10))
[L1460]  EXPR, FCALL  a10->b
[L1460]  EXPR, FCALL  a10->b->c
[L1460]  COND FALSE   !(!a10->b->c)
[L1462]  CALL         alloc_10(a10)
[L1447]  EXPR, FCALL  a->b
[L1447]  EXPR, FCALL  a->b->c
[L1447]  CALL, EXPR   ldv_malloc(sizeof(int))
[L1073]  COND FALSE   !(__VERIFIER_nondet_int())
[L1076]  RET          return 0;
[L1447]  EXPR         ldv_malloc(sizeof(int))
[L1447]  RET, FCALL   a->b->c->p = (int *)ldv_malloc(sizeof(int))
[L1462]               alloc_10(a10)
[L1463]  CALL         free_10(a10)
[L1451]  EXPR, FCALL  a->b
[L1451]  EXPR, FCALL  a->b->c
[L1451]  EXPR, FCALL  a->b->c->p
[L1451]  RET, FCALL   free(a->b->c->p)
[L1463]               free_10(a10)
[L1465]  EXPR, FCALL  a10->b
[L1465]  EXPR, FCALL  a10->b->c
[L1465]  FCALL        free(a10->b->c)

  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: free always succeeds
    For all program executions holds that free always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: free always succeeds
    For all program executions holds that free always succeeds at this location
  - PositiveResult [Line: 1]: free always succeeds
    For all program executions holds that free always succeeds at this location
  - PositiveResult [Line: 1]: free always succeeds
    For all program executions holds that free always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
  - PositiveResult [Line: 1]: pointer dereference always succeeds
    For all program executions holds that pointer dereference always succeeds at this location
 * Results from de.uni_freiburg.informatik.ultimate.boogie.preprocessor:
  - GenericResult: Unfinished Backtranslation
    Generated EnsuresSpecification ensures #valid == old(#valid); is not ensure(true)
RESULT: Ultimate could not prove your program: unable to determine feasibility of some traces
Written .csv to /storage/ultimate/releaseScripts/default/UAutomizer-linux/../../../releaseScripts/default/UAutomizer-linux/csv/memleaks_test10_true-valid-memsafety_true-termination.i_svcomp-DerefFreeMemtrack-32bit-Automizer_Camel+AI_EQ.epf_AbstractInterpretationC.xml/Csv-Benchmark-0-2018-01-24_14-43-07-323.csv
Written .csv to /storage/ultimate/releaseScripts/default/UAutomizer-linux/../../../releaseScripts/default/UAutomizer-linux/csv/memleaks_test10_true-valid-memsafety_true-termination.i_svcomp-DerefFreeMemtrack-32bit-Automizer_Camel+AI_EQ.epf_AbstractInterpretationC.xml/Csv-VPDomainBenchmark-0-2018-01-24_14-43-07-323.csv
Written .csv to /storage/ultimate/releaseScripts/default/UAutomizer-linux/../../../releaseScripts/default/UAutomizer-linux/csv/memleaks_test10_true-valid-memsafety_true-termination.i_svcomp-DerefFreeMemtrack-32bit-Automizer_Camel+AI_EQ.epf_AbstractInterpretationC.xml/Csv-BenchmarkWithCounters-0-2018-01-24_14-43-07-323.csv
Received shutdown request...