/usr/bin/java -Xmx8000000000 -Xss4m -jar ./plugins/org.eclipse.equinox.launcher_1.5.800.v20200727-1323.jar -data @noDefault -ultimatedata ./data -s ../../../trunk/examples/settings/automizer/mcr/svcomp-Reach-32bit-Automizer_Default-noMmResRef-FA-McrAutomaton-WP.epf -tc ../../../trunk/examples/toolchains/AutomizerBplInline.xml -i ../../../trunk/examples/concurrent/bpl/weaver-benchmarks/generated/array-eq-trans.wvr.bpl -------------------------------------------------------------------------------- This is Ultimate 0.2.2-wip.dk.mcr-reduction-c7b2d19 [2022-03-15 20:42:01,256 INFO L177 SettingsManager]: Resetting all preferences to default values... [2022-03-15 20:42:01,258 INFO L181 SettingsManager]: Resetting UltimateCore preferences to default values [2022-03-15 20:42:01,308 INFO L184 SettingsManager]: Ultimate Commandline Interface provides no preferences, ignoring... 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[2022-03-15 20:42:01,358 INFO L181 SettingsManager]: Resetting SmtParser preferences to default values [2022-03-15 20:42:01,359 INFO L181 SettingsManager]: Resetting Witness Parser preferences to default values [2022-03-15 20:42:01,359 INFO L188 SettingsManager]: Finished resetting all preferences to default values... [2022-03-15 20:42:01,360 INFO L101 SettingsManager]: Beginning loading settings from /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/settings/automizer/mcr/svcomp-Reach-32bit-Automizer_Default-noMmResRef-FA-McrAutomaton-WP.epf [2022-03-15 20:42:01,379 INFO L113 SettingsManager]: Loading preferences was successful [2022-03-15 20:42:01,379 INFO L115 SettingsManager]: Preferences different from defaults after loading the file: [2022-03-15 20:42:01,380 INFO L136 SettingsManager]: Preferences of Boogie Procedure Inliner differ from their defaults: [2022-03-15 20:42:01,380 INFO L138 SettingsManager]: * Ignore calls to procedures called more than once=ONLY_FOR_SEQUENTIAL_PROGRAMS [2022-03-15 20:42:01,380 INFO L136 SettingsManager]: Preferences of BlockEncodingV2 differ from their defaults: [2022-03-15 20:42:01,380 INFO L138 SettingsManager]: * Create parallel compositions if possible=false [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * Use SBE=true [2022-03-15 20:42:01,381 INFO L136 SettingsManager]: Preferences of CACSL2BoogieTranslator differ from their defaults: [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * sizeof long=4 [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * Overapproximate operations on floating types=true [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * sizeof POINTER=4 [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * Check division by zero=IGNORE [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * Pointer to allocated memory at dereference=IGNORE [2022-03-15 20:42:01,381 INFO L138 SettingsManager]: * If two pointers are subtracted or compared they have the same base address=IGNORE [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * Check array bounds for arrays that are off heap=IGNORE [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * sizeof long double=12 [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * Check if freed pointer was valid=false [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * Use constant arrays=true [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * Pointer base address is valid at dereference=IGNORE [2022-03-15 20:42:01,382 INFO L136 SettingsManager]: Preferences of RCFGBuilder differ from their defaults: [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * Size of a code block=SequenceOfStatements [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * To the following directory=./dump/ [2022-03-15 20:42:01,382 INFO L138 SettingsManager]: * SMT solver=External_DefaultMode [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2022-03-15 20:42:01,383 INFO L136 SettingsManager]: Preferences of TraceAbstraction differ from their defaults: [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Compute Interpolants along a Counterexample=Craig_NestedInterpolation [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Positions where we compute the Hoare Annotation=LoopsAndPotentialCycles [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Trace refinement strategy=CAMEL [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Command for external solver=z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Override the interpolant automaton setting of the refinement strategy=true [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Large block encoding in concurrent analysis=VARIABLE_BASED_MOVER_CHECK [2022-03-15 20:42:01,383 INFO L138 SettingsManager]: * Compute Hoare Annotation of negated interpolant automaton, abstraction and CFG=true [2022-03-15 20:42:01,384 INFO L138 SettingsManager]: * Interpolant automaton=MCR WARNING: An illegal reflective access operation has occurred WARNING: Illegal reflective access by com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 (file:/storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/plugins/com.sun.xml.bind_2.2.0.v201505121915.jar) to method java.lang.ClassLoader.defineClass(java.lang.String,byte[],int,int) WARNING: Please consider reporting this to the maintainers of com.sun.xml.bind.v2.runtime.reflect.opt.Injector$1 WARNING: Use --illegal-access=warn to enable warnings of further illegal reflective access operations WARNING: All illegal access operations will be denied in a future release [2022-03-15 20:42:01,572 INFO L75 nceAwareModelManager]: Repository-Root is: /tmp [2022-03-15 20:42:01,590 INFO L261 ainManager$Toolchain]: [Toolchain 1]: Applicable parser(s) successfully (re)initialized [2022-03-15 20:42:01,592 INFO L217 ainManager$Toolchain]: [Toolchain 1]: Toolchain selected. [2022-03-15 20:42:01,593 INFO L271 PluginConnector]: Initializing Boogie PL CUP Parser... [2022-03-15 20:42:01,593 INFO L275 PluginConnector]: Boogie PL CUP Parser initialized [2022-03-15 20:42:01,594 INFO L432 ainManager$Toolchain]: [Toolchain 1]: Parsing single file: /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/concurrent/bpl/weaver-benchmarks/generated/array-eq-trans.wvr.bpl [2022-03-15 20:42:01,595 INFO L110 BoogieParser]: Parsing: '/storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/../../../trunk/examples/concurrent/bpl/weaver-benchmarks/generated/array-eq-trans.wvr.bpl' [2022-03-15 20:42:01,620 INFO L299 ainManager$Toolchain]: ####################### [Toolchain 1] ####################### [2022-03-15 20:42:01,621 INFO L131 ToolchainWalker]: Walking toolchain with 4 elements. [2022-03-15 20:42:01,623 INFO L113 PluginConnector]: ------------------------Boogie Procedure Inliner---------------------------- [2022-03-15 20:42:01,624 INFO L271 PluginConnector]: Initializing Boogie Procedure Inliner... [2022-03-15 20:42:01,624 INFO L275 PluginConnector]: Boogie Procedure Inliner initialized [2022-03-15 20:42:01,636 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Procedure Inliner for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,643 INFO L185 PluginConnector]: Executing the observer Inliner from plugin Boogie Procedure Inliner for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,648 INFO L137 Inliner]: procedures = 4, calls = 3, calls flagged for inlining = 0, calls inlined = 0, statements flattened = 0 [2022-03-15 20:42:01,649 INFO L132 PluginConnector]: ------------------------ END Boogie Procedure Inliner---------------------------- [2022-03-15 20:42:01,650 INFO L113 PluginConnector]: ------------------------Boogie Preprocessor---------------------------- [2022-03-15 20:42:01,650 INFO L271 PluginConnector]: Initializing Boogie Preprocessor... [2022-03-15 20:42:01,650 INFO L275 PluginConnector]: Boogie Preprocessor initialized [2022-03-15 20:42:01,657 INFO L185 PluginConnector]: Executing the observer EnsureBoogieModelObserver from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,657 INFO L185 PluginConnector]: Executing the observer TypeChecker from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,669 INFO L185 PluginConnector]: Executing the observer ConstExpander from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,669 INFO L185 PluginConnector]: Executing the observer StructExpander from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,677 INFO L185 PluginConnector]: Executing the observer UnstructureCode from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,679 INFO L185 PluginConnector]: Executing the observer FunctionInliner from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,680 INFO L185 PluginConnector]: Executing the observer BoogieSymbolTableConstructor from plugin Boogie Preprocessor for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,681 INFO L132 PluginConnector]: ------------------------ END Boogie Preprocessor---------------------------- [2022-03-15 20:42:01,682 INFO L113 PluginConnector]: ------------------------RCFGBuilder---------------------------- [2022-03-15 20:42:01,682 INFO L271 PluginConnector]: Initializing RCFGBuilder... [2022-03-15 20:42:01,682 INFO L275 PluginConnector]: RCFGBuilder initialized [2022-03-15 20:42:01,684 INFO L185 PluginConnector]: Executing the observer RCFGBuilderObserver from plugin RCFGBuilder for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/1) ... [2022-03-15 20:42:01,690 INFO L173 SolverBuilder]: Constructing external solver with command: z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 [2022-03-15 20:42:01,701 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:01,721 INFO L229 MonitoredProcess]: Starting monitored process 1 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (exit command is (exit), workingDir is null) [2022-03-15 20:42:01,732 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1)] Waiting until timeout for monitored process [2022-03-15 20:42:01,764 INFO L124 BoogieDeclarations]: Specification and implementation of procedure thread1 given in one single declaration [2022-03-15 20:42:01,765 INFO L130 BoogieDeclarations]: Found specification of procedure thread1 [2022-03-15 20:42:01,765 INFO L138 BoogieDeclarations]: Found implementation of procedure thread1 [2022-03-15 20:42:01,765 INFO L124 BoogieDeclarations]: Specification and implementation of procedure thread2 given in one single declaration [2022-03-15 20:42:01,765 INFO L130 BoogieDeclarations]: Found specification of procedure thread2 [2022-03-15 20:42:01,765 INFO L138 BoogieDeclarations]: Found implementation of procedure thread2 [2022-03-15 20:42:01,765 INFO L124 BoogieDeclarations]: Specification and implementation of procedure ULTIMATE.start given in one single declaration [2022-03-15 20:42:01,765 INFO L130 BoogieDeclarations]: Found specification of procedure ULTIMATE.start [2022-03-15 20:42:01,765 INFO L138 BoogieDeclarations]: Found implementation of procedure ULTIMATE.start [2022-03-15 20:42:01,766 INFO L124 BoogieDeclarations]: Specification and implementation of procedure thread3 given in one single declaration [2022-03-15 20:42:01,767 INFO L130 BoogieDeclarations]: Found specification of procedure thread3 [2022-03-15 20:42:01,767 INFO L138 BoogieDeclarations]: Found implementation of procedure thread3 [2022-03-15 20:42:01,767 WARN L208 CfgBuilder]: User set CodeBlockSize to SequenceOfStatements but program contains fork statements. Overwriting the user preferences and setting CodeBlockSize to SingleStatement [2022-03-15 20:42:01,816 INFO L234 CfgBuilder]: Building ICFG [2022-03-15 20:42:01,818 INFO L260 CfgBuilder]: Building CFG for each procedure with an implementation [2022-03-15 20:42:01,919 INFO L275 CfgBuilder]: Performing block encoding [2022-03-15 20:42:01,924 INFO L294 CfgBuilder]: Using the 1 location(s) as analysis (start of procedure ULTIMATE.start) [2022-03-15 20:42:01,925 INFO L299 CfgBuilder]: Removed 0 assume(true) statements. [2022-03-15 20:42:01,926 INFO L202 PluginConnector]: Adding new model array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 15.03 08:42:01 BoogieIcfgContainer [2022-03-15 20:42:01,926 INFO L132 PluginConnector]: ------------------------ END RCFGBuilder---------------------------- [2022-03-15 20:42:01,928 INFO L113 PluginConnector]: ------------------------TraceAbstraction---------------------------- [2022-03-15 20:42:01,928 INFO L271 PluginConnector]: Initializing TraceAbstraction... [2022-03-15 20:42:01,931 INFO L275 PluginConnector]: TraceAbstraction initialized [2022-03-15 20:42:01,931 INFO L185 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.boogie.parser AST 15.03 08:42:01" (1/2) ... [2022-03-15 20:42:01,932 INFO L205 PluginConnector]: Invalid model from TraceAbstraction for observer de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction.TraceAbstractionObserver@1f917cca and model type array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction AST 15.03 08:42:01, skipping insertion in model container [2022-03-15 20:42:01,932 INFO L185 PluginConnector]: Executing the observer TraceAbstractionObserver from plugin TraceAbstraction for "array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.plugins.generator.rcfgbuilder CFG 15.03 08:42:01" (2/2) ... [2022-03-15 20:42:01,933 INFO L111 eAbstractionObserver]: Analyzing ICFG array-eq-trans.wvr.bpl [2022-03-15 20:42:01,937 WARN L150 ceAbstractionStarter]: Switching off computation of Hoare annotation because input is a concurrent program [2022-03-15 20:42:01,937 INFO L205 ceAbstractionStarter]: Automizer settings: Hoare:false NWA Interpolation:Craig_NestedInterpolation Determinization: PREDICATE_ABSTRACTION [2022-03-15 20:42:01,937 INFO L164 ceAbstractionStarter]: Applying trace abstraction to program that has 1 error locations. [2022-03-15 20:42:01,937 INFO L534 ceAbstractionStarter]: Constructing petrified ICFG for 1 thread instances. [2022-03-15 20:42:01,975 INFO L148 ThreadInstanceAdder]: Constructed 3 joinOtherThreadTransitions. [2022-03-15 20:42:02,038 INFO L338 AbstractCegarLoop]: ======== Iteration 0 == of CEGAR loop == AllErrorsAtOnce ======== [2022-03-15 20:42:02,044 INFO L339 AbstractCegarLoop]: Settings: SEPARATE_VIOLATION_CHECK=true, mInterprocedural=true, mMaxIterations=1000000, mWatchIteration=1000000, mArtifact=RCFG, mInterpolation=Craig_NestedInterpolation, mInterpolantAutomaton=MCR, mDumpAutomata=false, mAutomataFormat=ATS_NUMERATE, mDumpPath=., mDeterminiation=PREDICATE_ABSTRACTION, mMinimize=MINIMIZE_SEVPA, mHoare=true, mAutomataTypeConcurrency=FINITE_AUTOMATA, mLazyFiniteAutomaton=false, mHoareTripleChecks=INCREMENTAL, mHoareAnnotationPositions=LoopsAndPotentialCycles, mDumpOnlyReuseAutomata=false, mLimitTraceHistogram=0, mErrorLocTimeLimit=0, mLimitPathProgramCount=0, mCollectInterpolantStatistics=true, mHeuristicEmptinessCheck=false, mHeuristicEmptinessCheckAStarHeuristic=ZERO, mHeuristicEmptinessCheckAStarHeuristicRandomSeed=1337, mHeuristicEmptinessCheckSmtFeatureScoringMethod=DAGSIZE, mSMTFeatureExtraction=false, mSMTFeatureExtractionDumpPath=., mOverrideInterpolantAutomaton=true, mMcrInterpolantMethod=WP, mLoopAccelerationTechnique=FAST_UPR, mMcrOptimizeForkJoin=true, mMcrOverapproximateWrwc=true [2022-03-15 20:42:02,044 INFO L340 AbstractCegarLoop]: Starting to check reachability of 4 error locations. [2022-03-15 20:42:02,069 INFO L126 etLargeBlockEncoding]: Petri net LBE is using variable-based independence relation. [2022-03-15 20:42:02,077 INFO L133 etLargeBlockEncoding]: Starting large block encoding on Petri net that has 39 places, 35 transitions, 94 flow [2022-03-15 20:42:02,080 INFO L110 LiptonReduction]: Starting Lipton reduction on Petri net that has 39 places, 35 transitions, 94 flow [2022-03-15 20:42:02,081 INFO L74 FinitePrefix]: Start finitePrefix. Operand has 39 places, 35 transitions, 94 flow [2022-03-15 20:42:02,104 INFO L129 PetriNetUnfolder]: 6/32 cut-off events. [2022-03-15 20:42:02,104 INFO L130 PetriNetUnfolder]: For 3/3 co-relation queries the response was YES. [2022-03-15 20:42:02,107 INFO L84 FinitePrefix]: Finished finitePrefix Result has 45 conditions, 32 events. 6/32 cut-off events. For 3/3 co-relation queries the response was YES. Maximal size of possible extension queue 6. Compared 58 event pairs, 0 based on Foata normal form. 0/25 useless extension candidates. Maximal degree in co-relation 27. Up to 3 conditions per place. [2022-03-15 20:42:02,109 INFO L116 LiptonReduction]: Number of co-enabled transitions 378 [2022-03-15 20:42:02,744 INFO L131 LiptonReduction]: Checked pairs total: 262 [2022-03-15 20:42:02,745 INFO L133 LiptonReduction]: Total number of compositions: 20 [2022-03-15 20:42:02,752 INFO L111 iNet2FiniteAutomaton]: Start petriNet2FiniteAutomaton. Operand has 25 places, 18 transitions, 60 flow [2022-03-15 20:42:02,764 INFO L133 iNet2FiniteAutomaton]: Finished petriNet2FiniteAutomaton. Result has 24 states, 23 states have (on average 2.608695652173913) internal successors, (60), 23 states have internal predecessors, (60), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:02,766 INFO L276 IsEmpty]: Start isEmpty. Operand has 24 states, 23 states have (on average 2.608695652173913) internal successors, (60), 23 states have internal predecessors, (60), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:02,770 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 12 [2022-03-15 20:42:02,770 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:02,771 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:02,771 INFO L402 AbstractCegarLoop]: === Iteration 1 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:02,775 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:02,775 INFO L85 PathProgramCache]: Analyzing trace with hash -1879026992, now seen corresponding path program 1 times [2022-03-15 20:42:02,791 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:02,791 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1216009266] [2022-03-15 20:42:02,791 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:02,792 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:02,883 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:03,096 INFO L134 CoverageAnalysis]: Checked inductivity of 0 backedges. 0 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:03,096 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:03,097 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1216009266] [2022-03-15 20:42:03,097 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1216009266] provided 1 perfect and 0 imperfect interpolant sequences [2022-03-15 20:42:03,097 INFO L191 FreeRefinementEngine]: Found 1 perfect and 0 imperfect interpolant sequences. [2022-03-15 20:42:03,098 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [2] imperfect sequences [] total 2 [2022-03-15 20:42:03,099 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [1786506155] [2022-03-15 20:42:03,100 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:03,106 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:03,128 INFO L252 McrAutomatonBuilder]: Finished intersection with 24 states and 38 transitions. [2022-03-15 20:42:03,129 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:42:04,340 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 1 new interpolants: [94#(and (or (= i_AC i_AB) (< i_BC Bn)) (or (not break_BC) (<= Bn i_BC) (not (<= (+ i_BC 1) Cn))) (or (< i_BC Bn) (= i_BC i_AB)))] [2022-03-15 20:42:04,344 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 5 states [2022-03-15 20:42:04,345 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:42:04,366 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 5 interpolants. [2022-03-15 20:42:04,367 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=9, Invalid=11, Unknown=0, NotChecked=0, Total=20 [2022-03-15 20:42:04,368 INFO L87 Difference]: Start difference. First operand has 24 states, 23 states have (on average 2.608695652173913) internal successors, (60), 23 states have internal predecessors, (60), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Second operand has 5 states, 4 states have (on average 4.25) internal successors, (17), 4 states have internal predecessors, (17), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:04,477 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:42:04,478 INFO L93 Difference]: Finished difference Result 64 states and 170 transitions. [2022-03-15 20:42:04,480 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2022-03-15 20:42:04,481 INFO L78 Accepts]: Start accepts. Automaton has has 5 states, 4 states have (on average 4.25) internal successors, (17), 4 states have internal predecessors, (17), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 11 [2022-03-15 20:42:04,481 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:42:04,488 INFO L225 Difference]: With dead ends: 64 [2022-03-15 20:42:04,488 INFO L226 Difference]: Without dead ends: 54 [2022-03-15 20:42:04,489 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 15 GetRequests, 5 SyntacticMatches, 6 SemanticMatches, 4 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 9 ImplicationChecksByTransitivity, 0.1s TimeCoverageRelationStatistics Valid=14, Invalid=16, Unknown=0, NotChecked=0, Total=30 [2022-03-15 20:42:04,492 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 13 mSDsluCounter, 17 mSDsCounter, 0 mSdLazyCounter, 64 mSolverCounterSat, 5 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.1s Time, 0 mProtectedPredicate, 0 mProtectedAction, 13 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 69 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 5 IncrementalHoareTripleChecker+Valid, 64 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.1s IncrementalHoareTripleChecker+Time [2022-03-15 20:42:04,493 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [13 Valid, 1 Invalid, 69 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [5 Valid, 64 Invalid, 0 Unknown, 0 Unchecked, 0.1s Time] [2022-03-15 20:42:04,507 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 54 states. [2022-03-15 20:42:04,520 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 54 to 38. [2022-03-15 20:42:04,521 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 38 states, 37 states have (on average 2.72972972972973) internal successors, (101), 37 states have internal predecessors, (101), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:04,522 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 38 states to 38 states and 101 transitions. [2022-03-15 20:42:04,531 INFO L78 Accepts]: Start accepts. Automaton has 38 states and 101 transitions. Word has length 11 [2022-03-15 20:42:04,532 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:42:04,532 INFO L470 AbstractCegarLoop]: Abstraction has 38 states and 101 transitions. [2022-03-15 20:42:04,532 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 5 states, 4 states have (on average 4.25) internal successors, (17), 4 states have internal predecessors, (17), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:04,532 INFO L276 IsEmpty]: Start isEmpty. Operand 38 states and 101 transitions. [2022-03-15 20:42:04,533 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 13 [2022-03-15 20:42:04,533 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:04,533 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:04,533 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable0 [2022-03-15 20:42:04,533 INFO L402 AbstractCegarLoop]: === Iteration 2 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:04,534 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:04,534 INFO L85 PathProgramCache]: Analyzing trace with hash -155251963, now seen corresponding path program 1 times [2022-03-15 20:42:04,536 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:04,537 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1634447353] [2022-03-15 20:42:04,537 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:04,537 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:04,553 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:04,674 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:04,674 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:04,675 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1634447353] [2022-03-15 20:42:04,675 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1634447353] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:04,675 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [907237846] [2022-03-15 20:42:04,675 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:04,675 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:04,676 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:04,691 INFO L229 MonitoredProcess]: Starting monitored process 2 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:42:04,718 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (2)] Waiting until timeout for monitored process [2022-03-15 20:42:04,730 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:04,732 INFO L263 TraceCheckSpWp]: Trace formula consists of 43 conjuncts, 11 conjunts are in the unsatisfiable core [2022-03-15 20:42:04,737 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:42:05,091 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:05,091 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:42:05,142 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:42:05,143 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 1 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 30 treesize of output 34 [2022-03-15 20:42:05,415 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:42:05,416 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 88 treesize of output 104 [2022-03-15 20:42:05,443 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:42:05,444 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 80 treesize of output 96 [2022-03-15 20:42:06,071 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:06,072 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [907237846] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:42:06,073 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:42:06,073 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [2, 2, 2] total 5 [2022-03-15 20:42:06,074 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [1131783050] [2022-03-15 20:42:06,074 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:06,075 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:06,080 INFO L252 McrAutomatonBuilder]: Finished intersection with 32 states and 56 transitions. [2022-03-15 20:42:06,081 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:42:07,824 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 1 new interpolants: [310#(and (or (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn i_BC) (= (+ i_BC 1) i_AC)) (or (= i_AC i_AB) (<= Cn i_BC)) (or (= (select B i_BC) (select C i_BC)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (<= Cn i_BC)) (or (<= (+ i_AB 1) Cn) (<= Cn i_BC)))] [2022-03-15 20:42:07,825 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 5 states [2022-03-15 20:42:07,825 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:42:07,825 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 5 interpolants. [2022-03-15 20:42:07,826 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=23, Invalid=33, Unknown=0, NotChecked=0, Total=56 [2022-03-15 20:42:07,826 INFO L87 Difference]: Start difference. First operand 38 states and 101 transitions. Second operand has 5 states, 4 states have (on average 4.5) internal successors, (18), 4 states have internal predecessors, (18), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:07,903 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:42:07,903 INFO L93 Difference]: Finished difference Result 73 states and 199 transitions. [2022-03-15 20:42:07,904 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 4 states. [2022-03-15 20:42:07,904 INFO L78 Accepts]: Start accepts. Automaton has has 5 states, 4 states have (on average 4.5) internal successors, (18), 4 states have internal predecessors, (18), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 12 [2022-03-15 20:42:07,905 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:42:07,906 INFO L225 Difference]: With dead ends: 73 [2022-03-15 20:42:07,906 INFO L226 Difference]: Without dead ends: 65 [2022-03-15 20:42:07,906 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 43 GetRequests, 35 SyntacticMatches, 2 SemanticMatches, 6 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 15 ImplicationChecksByTransitivity, 0.1s TimeCoverageRelationStatistics Valid=23, Invalid=33, Unknown=0, NotChecked=0, Total=56 [2022-03-15 20:42:07,907 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 13 mSDsluCounter, 14 mSDsCounter, 0 mSdLazyCounter, 54 mSolverCounterSat, 3 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.1s Time, 0 mProtectedPredicate, 0 mProtectedAction, 13 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 57 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 3 IncrementalHoareTripleChecker+Valid, 54 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.1s IncrementalHoareTripleChecker+Time [2022-03-15 20:42:07,908 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [13 Valid, 1 Invalid, 57 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [3 Valid, 54 Invalid, 0 Unknown, 0 Unchecked, 0.1s Time] [2022-03-15 20:42:07,909 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 65 states. [2022-03-15 20:42:07,914 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 65 to 52. [2022-03-15 20:42:07,914 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 52 states, 51 states have (on average 2.9411764705882355) internal successors, (150), 51 states have internal predecessors, (150), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:07,915 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 52 states to 52 states and 150 transitions. [2022-03-15 20:42:07,915 INFO L78 Accepts]: Start accepts. Automaton has 52 states and 150 transitions. Word has length 12 [2022-03-15 20:42:07,915 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:42:07,916 INFO L470 AbstractCegarLoop]: Abstraction has 52 states and 150 transitions. [2022-03-15 20:42:07,916 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 5 states, 4 states have (on average 4.5) internal successors, (18), 4 states have internal predecessors, (18), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:07,916 INFO L276 IsEmpty]: Start isEmpty. Operand 52 states and 150 transitions. [2022-03-15 20:42:07,917 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 13 [2022-03-15 20:42:07,917 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:07,917 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:07,936 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (2)] Forceful destruction successful, exit code 0 [2022-03-15 20:42:08,123 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable1,2 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:08,124 INFO L402 AbstractCegarLoop]: === Iteration 3 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:08,124 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:08,124 INFO L85 PathProgramCache]: Analyzing trace with hash 1879983896, now seen corresponding path program 1 times [2022-03-15 20:42:08,126 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:08,126 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [987082486] [2022-03-15 20:42:08,126 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:08,126 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:08,142 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:08,193 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:08,193 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:08,194 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [987082486] [2022-03-15 20:42:08,194 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [987082486] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:08,194 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1625819605] [2022-03-15 20:42:08,194 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:08,194 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:08,194 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:08,196 INFO L229 MonitoredProcess]: Starting monitored process 3 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:42:08,227 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (3)] Waiting until timeout for monitored process [2022-03-15 20:42:08,235 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:08,236 INFO L263 TraceCheckSpWp]: Trace formula consists of 43 conjuncts, 9 conjunts are in the unsatisfiable core [2022-03-15 20:42:08,237 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:42:08,342 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 8 treesize of output 6 [2022-03-15 20:42:08,353 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 7 treesize of output 5 [2022-03-15 20:42:08,416 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:08,416 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:42:08,427 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 8 treesize of output 6 [2022-03-15 20:42:08,486 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 49 treesize of output 45 [2022-03-15 20:42:08,489 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 45 treesize of output 41 [2022-03-15 20:42:08,605 INFO L134 CoverageAnalysis]: Checked inductivity of 1 backedges. 1 proven. 0 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:08,605 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1625819605] provided 1 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:08,606 INFO L191 FreeRefinementEngine]: Found 1 perfect and 2 imperfect interpolant sequences. [2022-03-15 20:42:08,606 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [3] imperfect sequences [3, 3] total 9 [2022-03-15 20:42:08,606 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [1515250955] [2022-03-15 20:42:08,606 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:08,608 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:08,612 INFO L252 McrAutomatonBuilder]: Finished intersection with 31 states and 53 transitions. [2022-03-15 20:42:08,612 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:42:08,885 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:08,904 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:08,918 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:08,924 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:09,260 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:09,280 WARN L234 Elim1Store]: Array PQE input equivalent to true [2022-03-15 20:42:09,679 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 2 new interpolants: [565#(and (or (not (< i_AB Bn)) (= An i_AC) (< i_AB An)) (or (= An i_AC) (not (= An i_AB))) (or (not (< i_AB Bn)) (not break_AB) (= An i_AC))), 566#(and (or (<= An i_AC) (not (= An i_AB))) (or (not (< i_AB Bn)) (<= An i_AC) (< i_AB An)) (or (not (< i_AB Bn)) (not break_AB) (<= An i_AC)))] [2022-03-15 20:42:09,680 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 7 states [2022-03-15 20:42:09,680 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:42:09,681 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 7 interpolants. [2022-03-15 20:42:09,681 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=48, Invalid=108, Unknown=0, NotChecked=0, Total=156 [2022-03-15 20:42:09,681 INFO L87 Difference]: Start difference. First operand 52 states and 150 transitions. Second operand has 7 states, 6 states have (on average 3.8333333333333335) internal successors, (23), 6 states have internal predecessors, (23), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:09,807 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:42:09,807 INFO L93 Difference]: Finished difference Result 73 states and 203 transitions. [2022-03-15 20:42:09,807 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2022-03-15 20:42:09,807 INFO L78 Accepts]: Start accepts. Automaton has has 7 states, 6 states have (on average 3.8333333333333335) internal successors, (23), 6 states have internal predecessors, (23), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 12 [2022-03-15 20:42:09,808 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:42:09,808 INFO L225 Difference]: With dead ends: 73 [2022-03-15 20:42:09,808 INFO L226 Difference]: Without dead ends: 54 [2022-03-15 20:42:09,809 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 46 GetRequests, 22 SyntacticMatches, 10 SemanticMatches, 14 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 108 ImplicationChecksByTransitivity, 0.2s TimeCoverageRelationStatistics Valid=67, Invalid=173, Unknown=0, NotChecked=0, Total=240 [2022-03-15 20:42:09,809 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 24 mSDsluCounter, 16 mSDsCounter, 0 mSdLazyCounter, 79 mSolverCounterSat, 4 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.0s Time, 0 mProtectedPredicate, 0 mProtectedAction, 24 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 83 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 4 IncrementalHoareTripleChecker+Valid, 79 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.1s IncrementalHoareTripleChecker+Time [2022-03-15 20:42:09,810 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [24 Valid, 1 Invalid, 83 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [4 Valid, 79 Invalid, 0 Unknown, 0 Unchecked, 0.1s Time] [2022-03-15 20:42:09,811 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 54 states. [2022-03-15 20:42:09,814 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 54 to 50. [2022-03-15 20:42:09,814 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 50 states, 49 states have (on average 2.7755102040816326) internal successors, (136), 49 states have internal predecessors, (136), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:09,815 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 50 states to 50 states and 136 transitions. [2022-03-15 20:42:09,815 INFO L78 Accepts]: Start accepts. Automaton has 50 states and 136 transitions. Word has length 12 [2022-03-15 20:42:09,815 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:42:09,815 INFO L470 AbstractCegarLoop]: Abstraction has 50 states and 136 transitions. [2022-03-15 20:42:09,815 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 7 states, 6 states have (on average 3.8333333333333335) internal successors, (23), 6 states have internal predecessors, (23), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:09,816 INFO L276 IsEmpty]: Start isEmpty. Operand 50 states and 136 transitions. [2022-03-15 20:42:09,816 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 14 [2022-03-15 20:42:09,816 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:09,816 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:09,839 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (3)] Ended with exit code 0 [2022-03-15 20:42:10,017 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 3 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable2 [2022-03-15 20:42:10,017 INFO L402 AbstractCegarLoop]: === Iteration 4 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:10,018 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:10,018 INFO L85 PathProgramCache]: Analyzing trace with hash -1480957003, now seen corresponding path program 1 times [2022-03-15 20:42:10,019 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:10,019 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [845863161] [2022-03-15 20:42:10,019 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:10,019 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:10,028 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:10,084 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 2 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:10,085 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:10,085 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [845863161] [2022-03-15 20:42:10,088 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [845863161] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:10,088 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1405449732] [2022-03-15 20:42:10,088 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:10,088 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:10,089 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:10,090 INFO L229 MonitoredProcess]: Starting monitored process 4 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:42:10,100 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (4)] Waiting until timeout for monitored process [2022-03-15 20:42:10,128 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:10,129 INFO L263 TraceCheckSpWp]: Trace formula consists of 47 conjuncts, 8 conjunts are in the unsatisfiable core [2022-03-15 20:42:10,130 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:42:10,193 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 45 treesize of output 41 [2022-03-15 20:42:10,196 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 41 treesize of output 37 [2022-03-15 20:42:10,245 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 2 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:10,245 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:42:10,318 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 32 treesize of output 28 [2022-03-15 20:42:10,321 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 0 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 28 treesize of output 24 [2022-03-15 20:42:10,398 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 2 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:10,398 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1405449732] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:42:10,399 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:42:10,399 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [4, 4, 4] total 9 [2022-03-15 20:42:10,399 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [468366714] [2022-03-15 20:42:10,399 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:10,400 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:10,406 INFO L252 McrAutomatonBuilder]: Finished intersection with 42 states and 79 transitions. [2022-03-15 20:42:10,406 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:42:11,213 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 7 new interpolants: [832#(or (<= An i_AB) (<= Cn i_BC)), 831#(and (or (not break_AC) (<= Cn i_BC)) (or (< i_AC An) (<= Cn i_BC)) (or (< i_AC Cn) (<= Cn i_BC))), 829#(<= An i_AB), 830#(and (or (<= An i_AB) (< i_AC Cn)) (or (not break_AC) (<= An i_AB)) (or (< i_AC An) (<= An i_AB))), 828#(<= Cn i_BC), 834#(and (or (not break_AC) (<= An i_AB)) (or (<= i_AC i_BC) (<= An i_AB)) (or (<= (+ i_AC 1) An) (<= An i_AB))), 833#(and (or (<= An i_AB) (< i_AC Cn) (<= Cn i_BC)) (or (not break_AC) (<= An i_AB) (<= Cn i_BC)) (or (< i_AC An) (<= An i_AB) (<= Cn i_BC)))] [2022-03-15 20:42:11,214 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 12 states [2022-03-15 20:42:11,214 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:42:11,214 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 12 interpolants. [2022-03-15 20:42:11,214 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=59, Invalid=213, Unknown=0, NotChecked=0, Total=272 [2022-03-15 20:42:11,215 INFO L87 Difference]: Start difference. First operand 50 states and 136 transitions. Second operand has 12 states, 12 states have (on average 3.4166666666666665) internal successors, (41), 11 states have internal predecessors, (41), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:11,429 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:42:11,429 INFO L93 Difference]: Finished difference Result 61 states and 163 transitions. [2022-03-15 20:42:11,430 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 9 states. [2022-03-15 20:42:11,430 INFO L78 Accepts]: Start accepts. Automaton has has 12 states, 12 states have (on average 3.4166666666666665) internal successors, (41), 11 states have internal predecessors, (41), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 13 [2022-03-15 20:42:11,430 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:42:11,431 INFO L225 Difference]: With dead ends: 61 [2022-03-15 20:42:11,431 INFO L226 Difference]: Without dead ends: 55 [2022-03-15 20:42:11,431 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 60 GetRequests, 35 SyntacticMatches, 6 SemanticMatches, 19 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 65 ImplicationChecksByTransitivity, 0.2s TimeCoverageRelationStatistics Valid=93, Invalid=327, Unknown=0, NotChecked=0, Total=420 [2022-03-15 20:42:11,432 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 26 mSDsluCounter, 51 mSDsCounter, 0 mSdLazyCounter, 210 mSolverCounterSat, 9 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.1s Time, 0 mProtectedPredicate, 0 mProtectedAction, 26 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 219 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 9 IncrementalHoareTripleChecker+Valid, 210 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.1s IncrementalHoareTripleChecker+Time [2022-03-15 20:42:11,432 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [26 Valid, 1 Invalid, 219 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [9 Valid, 210 Invalid, 0 Unknown, 0 Unchecked, 0.1s Time] [2022-03-15 20:42:11,433 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 55 states. [2022-03-15 20:42:11,436 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 55 to 40. [2022-03-15 20:42:11,436 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 40 states, 39 states have (on average 2.717948717948718) internal successors, (106), 39 states have internal predecessors, (106), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:11,437 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 40 states to 40 states and 106 transitions. [2022-03-15 20:42:11,437 INFO L78 Accepts]: Start accepts. Automaton has 40 states and 106 transitions. Word has length 13 [2022-03-15 20:42:11,437 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:42:11,437 INFO L470 AbstractCegarLoop]: Abstraction has 40 states and 106 transitions. [2022-03-15 20:42:11,437 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 12 states, 12 states have (on average 3.4166666666666665) internal successors, (41), 11 states have internal predecessors, (41), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:11,437 INFO L276 IsEmpty]: Start isEmpty. Operand 40 states and 106 transitions. [2022-03-15 20:42:11,438 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 14 [2022-03-15 20:42:11,438 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:11,438 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:11,465 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (4)] Forceful destruction successful, exit code 0 [2022-03-15 20:42:11,651 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable3,4 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:11,652 INFO L402 AbstractCegarLoop]: === Iteration 5 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:11,652 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:11,652 INFO L85 PathProgramCache]: Analyzing trace with hash 554278856, now seen corresponding path program 1 times [2022-03-15 20:42:11,653 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:11,653 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [56885783] [2022-03-15 20:42:11,653 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:11,653 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:11,660 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:11,689 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 1 trivial. 0 not checked. [2022-03-15 20:42:11,689 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:11,689 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [56885783] [2022-03-15 20:42:11,689 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [56885783] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:11,689 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [427549203] [2022-03-15 20:42:11,689 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:11,689 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:11,690 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:11,691 INFO L229 MonitoredProcess]: Starting monitored process 5 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:42:11,692 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (5)] Waiting until timeout for monitored process [2022-03-15 20:42:11,718 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:11,720 INFO L263 TraceCheckSpWp]: Trace formula consists of 47 conjuncts, 6 conjunts are in the unsatisfiable core [2022-03-15 20:42:11,720 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:42:11,780 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 1 trivial. 0 not checked. [2022-03-15 20:42:11,780 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:42:11,786 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 1 select indices, 1 select index equivalence classes, 1 disjoint index pairs (out of 0 index pairs), introduced 1 new quantified variables, introduced 0 case distinctions, treesize of input 8 treesize of output 6 [2022-03-15 20:42:11,852 INFO L134 CoverageAnalysis]: Checked inductivity of 2 backedges. 0 proven. 1 refuted. 0 times theorem prover too weak. 1 trivial. 0 not checked. [2022-03-15 20:42:11,852 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [427549203] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:42:11,852 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:42:11,852 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [3, 3, 3] total 5 [2022-03-15 20:42:11,852 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [1169956749] [2022-03-15 20:42:11,852 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:11,854 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:11,859 INFO L252 McrAutomatonBuilder]: Finished intersection with 40 states and 73 transitions. [2022-03-15 20:42:11,859 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:42:12,747 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 4 new interpolants: [1064#(and (or (<= Bn i_AB) (<= (+ i_BC 1) Bn)) (or (<= Bn i_AB) (< Cn (+ i_BC 1)))), 1066#(and (or (<= Bn i_AB) (< i_BC Bn)) (or (not break_BC) (<= Bn i_AB))), 1063#(and (or (not break_BC) (not (<= (+ i_BC 1) Cn))) (< i_BC Bn)), 1065#(and (or (not break_BC) (<= Bn i_AB) (< Cn (+ i_BC 1))) (or (<= Bn i_AB) (< i_BC Bn)))] [2022-03-15 20:42:12,748 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 9 states [2022-03-15 20:42:12,748 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:42:12,748 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 9 interpolants. [2022-03-15 20:42:12,749 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=34, Invalid=76, Unknown=0, NotChecked=0, Total=110 [2022-03-15 20:42:12,749 INFO L87 Difference]: Start difference. First operand 40 states and 106 transitions. Second operand has 9 states, 8 states have (on average 4.0) internal successors, (32), 8 states have internal predecessors, (32), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:12,838 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:42:12,838 INFO L93 Difference]: Finished difference Result 74 states and 203 transitions. [2022-03-15 20:42:12,838 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 6 states. [2022-03-15 20:42:12,839 INFO L78 Accepts]: Start accepts. Automaton has has 9 states, 8 states have (on average 4.0) internal successors, (32), 8 states have internal predecessors, (32), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 13 [2022-03-15 20:42:12,839 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:42:12,839 INFO L225 Difference]: With dead ends: 74 [2022-03-15 20:42:12,839 INFO L226 Difference]: Without dead ends: 55 [2022-03-15 20:42:12,840 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 55 GetRequests, 33 SyntacticMatches, 11 SemanticMatches, 11 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 35 ImplicationChecksByTransitivity, 0.1s TimeCoverageRelationStatistics Valid=50, Invalid=106, Unknown=0, NotChecked=0, Total=156 [2022-03-15 20:42:12,840 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 36 mSDsluCounter, 35 mSDsCounter, 0 mSdLazyCounter, 114 mSolverCounterSat, 3 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.1s Time, 0 mProtectedPredicate, 0 mProtectedAction, 36 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 117 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 3 IncrementalHoareTripleChecker+Valid, 114 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.1s IncrementalHoareTripleChecker+Time [2022-03-15 20:42:12,841 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [36 Valid, 1 Invalid, 117 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [3 Valid, 114 Invalid, 0 Unknown, 0 Unchecked, 0.1s Time] [2022-03-15 20:42:12,841 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 55 states. [2022-03-15 20:42:12,848 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 55 to 55. [2022-03-15 20:42:12,849 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 55 states, 54 states have (on average 2.7962962962962963) internal successors, (151), 54 states have internal predecessors, (151), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:12,849 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 55 states to 55 states and 151 transitions. [2022-03-15 20:42:12,849 INFO L78 Accepts]: Start accepts. Automaton has 55 states and 151 transitions. Word has length 13 [2022-03-15 20:42:12,849 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:42:12,849 INFO L470 AbstractCegarLoop]: Abstraction has 55 states and 151 transitions. [2022-03-15 20:42:12,850 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 9 states, 8 states have (on average 4.0) internal successors, (32), 8 states have internal predecessors, (32), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:42:12,850 INFO L276 IsEmpty]: Start isEmpty. Operand 55 states and 151 transitions. [2022-03-15 20:42:12,850 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 15 [2022-03-15 20:42:12,850 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:42:12,850 INFO L514 BasicCegarLoop]: trace histogram [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:42:12,877 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (5)] Forceful destruction successful, exit code 0 [2022-03-15 20:42:13,077 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable4,5 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:13,077 INFO L402 AbstractCegarLoop]: === Iteration 6 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:42:13,078 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:42:13,078 INFO L85 PathProgramCache]: Analyzing trace with hash 1335251667, now seen corresponding path program 1 times [2022-03-15 20:42:13,079 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:42:13,079 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1843563481] [2022-03-15 20:42:13,079 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:13,079 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:42:13,096 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:13,767 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:13,768 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:42:13,768 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1843563481] [2022-03-15 20:42:13,768 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1843563481] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:42:13,768 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [1087013641] [2022-03-15 20:42:13,768 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:42:13,768 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:42:13,768 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:42:13,770 INFO L229 MonitoredProcess]: Starting monitored process 6 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:42:13,778 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (6)] Waiting until timeout for monitored process [2022-03-15 20:42:13,805 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:42:13,808 INFO L263 TraceCheckSpWp]: Trace formula consists of 48 conjuncts, 18 conjunts are in the unsatisfiable core [2022-03-15 20:42:13,809 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:42:14,417 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:14,418 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:42:14,946 INFO L353 Elim1Store]: treesize reduction 10, result has 81.8 percent of original size [2022-03-15 20:42:14,946 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 4 select indices, 4 select index equivalence classes, 0 disjoint index pairs (out of 6 index pairs), introduced 4 new quantified variables, introduced 6 case distinctions, treesize of input 120 treesize of output 150 [2022-03-15 20:42:16,495 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:42:16,495 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 153 treesize of output 161 [2022-03-15 20:42:16,521 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:42:16,521 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 137 treesize of output 145 [2022-03-15 20:42:17,182 INFO L134 CoverageAnalysis]: Checked inductivity of 3 backedges. 0 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:42:17,182 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [1087013641] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:42:17,182 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:42:17,182 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 5, 5] total 15 [2022-03-15 20:42:17,182 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [767777904] [2022-03-15 20:42:17,182 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:42:17,184 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:42:17,192 INFO L252 McrAutomatonBuilder]: Finished intersection with 55 states and 110 transitions. [2022-03-15 20:42:17,192 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:46:54,559 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 20 new interpolants: [1360#(and (or (= (select B i_AB) (select C i_AC)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= i_AC i_AB) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (<= i_AB 0)) (or (<= (+ i_AC 1) Bn) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= i_AC i_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= (+ i_AC 1) Cn) (= i_BC i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (= i_BC i_AB)) (or (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (= i_AC i_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (= i_AC i_AB) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB An)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_AB) (<= (+ i_AC 1) Cn) (<= (+ i_AC 1) Bn)) (or (<= (+ i_AC 1) Cn) (< i_AB Bn) (<= (+ i_AC 1) Bn)) (or (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_AB An)) (or (not break_AB) (<= (+ i_AC 1) An) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (< 0 (+ i_AB 1)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (<= (+ i_AC 1) Bn) (< i_AB An)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (= i_BC i_AC) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_AB An)) (or (not break_AB) (<= (+ i_AC 1) An) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn))) (or (= i_AC i_AB) (= i_BC i_AC) (< i_AB Bn) (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC))), 1358#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= An i_AC))), 1362#(and (or (= (select B i_AB) (select C i_AC)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (= i_AC i_AB) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (= i_AC i_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (= i_AC i_AB) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select A i_AC)) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= i_AC i_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (< i_AB Bn) (<= (+ i_AC 1) Bn)) (or (< 0 (+ i_AB 1)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AB 1) An) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (= i_BC i_AB)) (or (<= (+ i_AC 1) Cn) (< i_AB An)) (or (not break_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= i_AB 0)) (or (= i_BC i_AC) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= (+ i_AC 1) An) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< i_AB An)) (or (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (<= (+ i_AC 1) An) (not (= (select C i_AC) (select A i_AC))) (< i_AB An)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn))) (or (= i_AC i_AB) (= i_BC i_AC) (< i_AB Bn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (= (select C i_AC) (select A i_AC)))), 1359#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= i_BC i_AB)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)))), 1361#(and (or (not break_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_BC) (= i_AC i_AB) (= i_BC i_AC) (< i_AB Bn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) An) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_AB) (= i_AC i_AB) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_BC Cn) (< i_AB An)) (or (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (<= (+ i_AC 1) An) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (<= (+ i_AC 1) Cn) (< i_AB Bn) (< i_BC Bn)) (or (not break_BC) (not break_AB) (= i_AC i_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn) (not (<= (+ i_AB 1) Bn))) (or (< 0 (+ i_AB 1)) (< i_AB Bn) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (< i_AB Bn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0) (< i_BC Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (= i_AC i_AB) (= i_BC i_AC) (< i_AB Bn) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) Cn) (= i_BC i_AC)) (or (not break_AB) (= i_AC i_AB) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_BC) (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (= i_BC i_AB)) (or (not break_BC) (= i_BC i_AC) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_AB) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_BC Cn)) (or (not break_AB) (= (select C i_AC) (select A i_AC)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= (+ i_AC 1) Cn) (< i_BC Bn)) (or (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (< i_BC Bn)) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (< i_BC Bn)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (= i_BC i_AC) (< i_BC Cn) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (= i_AC i_AB) (< i_AB Bn) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_BC) (not break_AB) (= i_AC i_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn) (< i_AB An)) (or (not break_BC) (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (< i_AB An) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (= (select B i_AB) (select C i_AC)) (< i_AB Bn) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_BC Cn) (< i_AB An)) (or (not break_BC) (< i_AB Bn) (<= (+ i_AC 1) Bn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_BC) (not break_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB Bn) (< i_BC Cn)) (or (not break_BC) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_AB An)) (or (not break_AB) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_AB) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0))), 1363#(and (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< i_AB Bn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_BC (not (< i_BC Bn)) (< i_AB An) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AB Bn) break_BC (not (< i_BC Bn))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) (< i_AB Bn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (< i_AB Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (< i_AB An) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) (= i_BC i_AC) (< i_AB Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) (< i_AB Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< i_AB Bn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (= i_BC i_AC) (< i_AB Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (< i_AB An) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< i_AB Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AB Bn) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) break_BC (< i_AB An) (<= Cn i_BC) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AB Bn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (< i_AB An) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) break_BC (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (< i_AB An)) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) (= i_BC i_AC) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) An) (< (+ i_BC 1) Bn) break_BC (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (= i_BC i_AB)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< i_AB Bn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= (+ i_AC 1) An) break_BC (not (= (select C i_AC) (select A i_AC))) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= i_BC i_AC) break_BC (< i_AB An) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)))), 1367#(and (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (< (+ i_AB 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) Bn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Bn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) break_AB (<= (+ 2 i_AB) An) (< i_BC Bn)) (or (not (< i_AB Bn)) (= i_AC i_AB) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_AC i_AB) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC))), 1354#(and (or (not break_BC) (not break_AB) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_AB) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (<= i_AB 0) (< i_BC Bn)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_AB) (<= (+ i_AC 1) Cn) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_AB) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_AB) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (<= (+ i_AC 1) Cn) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (<= An i_AC) (< i_AB An) (< i_BC Bn)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (< i_AC (+ An 1)) (< i_AB An) (< i_BC Bn)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (not break_AB) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC))), 1351#(and (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)))), 1365#(and (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AB) An) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (not break_BC) (not (< i_AB Bn)) (= i_AC i_AB) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) Bn) (< i_BC Cn) break_AB (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< i_BC Cn) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0) (< i_BC Bn)) (or (not (< i_AB Bn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB (<= (+ 2 i_AB) An) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AB) An) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_AC i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_AC i_AB) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< (+ i_AB 1) Bn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC) (< i_BC Bn)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_BC Cn) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (= i_AC i_AB) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_BC Cn) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) break_AB (<= (+ 2 i_AB) An) (< i_BC Bn)) (or (not (< i_AB Bn)) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) (< i_BC Cn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_BC Cn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_BC Cn) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)))), 1356#(and (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)))), 1357#(and (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (= (select B i_AB) (select C i_AC)) (<= Bn i_AB) (<= An i_AB) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (< 0 (+ i_AB 1)) (<= Bn i_AB) (<= An i_AB) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (<= Bn i_AB) (<= An i_AB) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (< 0 (+ i_AB 1)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (<= Bn i_AB) (<= (+ i_AC 1) Cn) (<= An i_AB) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (= (select B i_AB) (select C i_AC)) (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (<= Bn i_AB) (<= An i_AB) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not break_BC) (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)))), 1353#(and (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= (+ i_BC 1) Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (= (select B i_BC) (select A i_AC)) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= (+ i_BC 1) Bn)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (= (select C i_BC) (select C i_AC)) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= (+ i_BC 1) Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= (+ i_BC 1) Bn) (<= i_AB 0)) (or (not break_AB) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (< i_AC (+ An 1)) (< i_AB An) (<= (+ i_BC 1) Bn)) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_AB) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (<= (+ i_AC 1) Cn) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (<= An i_AC) (< i_AB An) (<= (+ i_BC 1) Bn)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= (+ i_BC 1) Bn) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC))), 1352#(and (or (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn) (not (<= (+ i_AB 1) Bn))) (or (<= (+ i_AC 1) Cn) (< i_BC Bn)) (or (< 0 (+ i_AB 1)) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_BC) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (= i_BC i_AB)) (or (= (select B i_AB) (select C i_AC)) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (= i_BC i_AC) (< i_BC Cn)) (or (not break_BC) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_BC) (= i_BC i_AC) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_BC) (= i_AC i_AB) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (< 0 (+ i_AB 1)) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) (= i_BC i_AC) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_BC) (<= (+ i_AC 1) An) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_BC) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (= (select C i_AC) (select A i_AC)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (< i_BC Bn)) (or (not break_BC) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_BC) (<= (+ i_AC 1) Cn) (= i_BC i_AC)) (or (<= (+ i_AB 1) An) (<= (+ i_AC 1) An) (< i_BC Bn)) (or (not break_BC) (<= (+ i_AB 1) An) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (= i_AC i_AB) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC))) (or (not break_BC) (= i_AC i_AB) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (<= (+ i_AC 1) An) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (= i_AC i_AB) (= (select C i_AC) (select A i_AC)) (< i_BC Bn)) (or (not break_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) (= i_BC i_AC) (< i_BC Cn)) (or (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< i_BC Cn)) (or (not break_BC) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (<= (+ i_AB 1) An) (= i_BC i_AC) (= (select C i_AC) (select A i_AC))) (or (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) (< i_BC Cn) (= (select C i_AC) (select A i_AC)))), 1364#(and (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AB) An) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Bn) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AB) An) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (<= (+ i_AC 1) Bn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) (<= (+ i_AC 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_AC i_AB) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_AC i_AB) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_BC) (not (< i_AB An)))), 1355#(and (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC)) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< (+ i_BC 1) Bn) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) break_BC (= (select B i_BC) (select A i_AC)) (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) break_BC (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (= (select B i_BC) (select B i_AB)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0))), 1368#(and (or (not break_AB) (<= (+ i_AC 1) An)) (or (not break_BC) (< i_AB An)) (or (<= (+ i_AC 1) An) (< i_AB An)) (or (not break_BC) (< i_AB Bn)) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select B i_BC) (select A i_AC)))) (or (not break_BC) (not break_AB)) (or (not break_AB) (= (select B i_BC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (<= (+ i_BC 1) Bn)) (or (< i_AB Bn) (= (select B i_BC) (select A i_AC))) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An)) (or (not break_AB) (< 0 (+ i_AB 1)) (= (select B i_BC) (select A i_AC))) (or (not break_AB) (= i_BC i_AC)) (or (not break_AB) (= (select B i_BC) (select A i_AC)) (= i_BC i_AB)) (or (= (select B i_BC) (select A i_AC)) (< i_AB An)) (or (= i_BC i_AC) (< i_AB An)) (or (< i_AB Bn) (<= (+ i_BC 1) Bn)) (or (= i_BC i_AC) (< i_AB Bn))), 1369#(and (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) Bn) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) Bn) break_AB (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (<= (+ 2 i_AB) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (= (select B i_BC) (select A i_AC))) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (< i_AB An)))), 1366#(and (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) (= i_BC i_AC) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) Bn) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) (< (+ i_AB 1) Bn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) Bn) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_AB 1) Bn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< 0 (+ 2 i_AB)) (< (+ i_BC 1) Bn) (< (+ i_AB 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< (+ i_AB 1) Bn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (= (+ i_AB 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (<= (+ 2 i_AB) An)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= (+ 2 i_AB) An)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= i_AC i_AB) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_AB 1) An) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (= i_BC i_AC) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select C i_AC) (select B (+ i_AB 1))) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AB 1) 0) (< (+ i_BC 1) Bn) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (<= (+ 2 i_AB) An)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= i_BC i_AB)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) (<= (+ i_AC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_AC i_AB) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) An) (<= An i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= (+ 2 i_AB) An)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (< (+ i_AB 1) Bn) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (= i_BC i_AC) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= (+ i_AC 1) An) (< (+ i_AB 1) An) break_AB break_BC (not (< i_BC Bn)) (not (< i_AB An)) (< (+ i_BC 1) Cn) (= (+ i_BC 1) i_AC))), 1350#(and (or (not break_BC) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (= (select B i_AB) (select C i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (<= (+ i_AC 1) Cn) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select B i_AB)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (<= (+ i_AB 1) An) (<= An i_AC) (<= Cn i_BC)) (or (<= (+ i_AB 1) An) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (< 0 (+ i_AB 1)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AB 1) An) (<= (+ i_AC 1) Cn) (<= An i_AC) (<= Cn i_BC)) (or (<= An i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AB 1) An) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select B i_AB) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AB 1) An) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (< 0 (+ i_AB 1)) (<= An i_AC) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (= (select C i_BC) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (= (select A i_AB) (select C i_BC)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (< i_BC Bn)) (or (< i_AC (+ An 1)) (< Bn (+ i_AB 1)) (<= i_AB 0) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (= (select B i_BC) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)) (or (<= (+ i_AB 1) An) (< i_AC (+ An 1)) (< i_BC Bn)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= Cn i_BC) (<= i_AB 0)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (<= Cn i_BC)))] [2022-03-15 20:46:54,560 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 28 states [2022-03-15 20:46:54,560 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:46:54,560 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 28 interpolants. [2022-03-15 20:46:54,560 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=206, Invalid=1126, Unknown=0, NotChecked=0, Total=1332 [2022-03-15 20:46:54,561 INFO L87 Difference]: Start difference. First operand 55 states and 151 transitions. Second operand has 28 states, 27 states have (on average 2.888888888888889) internal successors, (78), 27 states have internal predecessors, (78), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:47:18,302 WARN L228 SmtUtils]: Spent 11.19s on a formula simplification. DAG size of input: 421 DAG size of output: 251 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:47:32,352 WARN L228 SmtUtils]: Spent 6.91s on a formula simplification. DAG size of input: 343 DAG size of output: 192 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:47:54,533 WARN L228 SmtUtils]: Spent 6.70s on a formula simplification. DAG size of input: 192 DAG size of output: 186 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:48:52,918 WARN L228 SmtUtils]: Spent 5.64s on a formula simplification. DAG size of input: 323 DAG size of output: 181 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:49:32,003 WARN L228 SmtUtils]: Spent 6.14s on a formula simplification. DAG size of input: 289 DAG size of output: 193 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:50:11,739 WARN L228 SmtUtils]: Spent 6.09s on a formula simplification. DAG size of input: 260 DAG size of output: 189 (called from [L 360] de.uni_freiburg.informatik.ultimate.lib.modelcheckerutils.smt.predicates.PredicateUnifier.getOrConstructPredicate) [2022-03-15 20:50:16,441 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:50:16,442 INFO L93 Difference]: Finished difference Result 544 states and 1389 transitions. [2022-03-15 20:50:16,442 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 83 states. [2022-03-15 20:50:16,442 INFO L78 Accepts]: Start accepts. Automaton has has 28 states, 27 states have (on average 2.888888888888889) internal successors, (78), 27 states have internal predecessors, (78), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 14 [2022-03-15 20:50:16,442 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:50:16,446 INFO L225 Difference]: With dead ends: 544 [2022-03-15 20:50:16,446 INFO L226 Difference]: Without dead ends: 516 [2022-03-15 20:50:16,449 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 144 GetRequests, 30 SyntacticMatches, 7 SemanticMatches, 107 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 3354 ImplicationChecksByTransitivity, 210.3s TimeCoverageRelationStatistics Valid=1791, Invalid=9981, Unknown=0, NotChecked=0, Total=11772 [2022-03-15 20:50:16,449 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 474 mSDsluCounter, 384 mSDsCounter, 0 mSdLazyCounter, 1392 mSolverCounterSat, 129 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 2.2s Time, 0 mProtectedPredicate, 0 mProtectedAction, 474 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 1521 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 129 IncrementalHoareTripleChecker+Valid, 1392 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 2.4s IncrementalHoareTripleChecker+Time [2022-03-15 20:50:16,450 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [474 Valid, 1 Invalid, 1521 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [129 Valid, 1392 Invalid, 0 Unknown, 0 Unchecked, 2.4s Time] [2022-03-15 20:50:16,451 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 516 states. [2022-03-15 20:50:16,468 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 516 to 124. [2022-03-15 20:50:16,468 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 124 states, 123 states have (on average 3.252032520325203) internal successors, (400), 123 states have internal predecessors, (400), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:16,469 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 124 states to 124 states and 400 transitions. [2022-03-15 20:50:16,469 INFO L78 Accepts]: Start accepts. Automaton has 124 states and 400 transitions. Word has length 14 [2022-03-15 20:50:16,469 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:50:16,469 INFO L470 AbstractCegarLoop]: Abstraction has 124 states and 400 transitions. [2022-03-15 20:50:16,470 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 28 states, 27 states have (on average 2.888888888888889) internal successors, (78), 27 states have internal predecessors, (78), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:16,470 INFO L276 IsEmpty]: Start isEmpty. Operand 124 states and 400 transitions. [2022-03-15 20:50:16,471 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 16 [2022-03-15 20:50:16,471 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:50:16,471 INFO L514 BasicCegarLoop]: trace histogram [2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:50:16,493 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (6)] Ended with exit code 0 [2022-03-15 20:50:16,686 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable5,6 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:16,686 INFO L402 AbstractCegarLoop]: === Iteration 7 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:50:16,687 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:50:16,687 INFO L85 PathProgramCache]: Analyzing trace with hash -1356972157, now seen corresponding path program 2 times [2022-03-15 20:50:16,687 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:50:16,688 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1068465186] [2022-03-15 20:50:16,688 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:50:16,688 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:50:16,696 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:50:16,866 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:16,866 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:50:16,866 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1068465186] [2022-03-15 20:50:16,867 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1068465186] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:50:16,867 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [2138386824] [2022-03-15 20:50:16,867 INFO L93 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST1 [2022-03-15 20:50:16,867 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:16,867 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:50:16,876 INFO L229 MonitoredProcess]: Starting monitored process 7 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:50:16,877 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (7)] Waiting until timeout for monitored process [2022-03-15 20:50:16,903 INFO L228 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST1 issued 2 check-sat command(s) [2022-03-15 20:50:16,903 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2022-03-15 20:50:16,903 INFO L263 TraceCheckSpWp]: Trace formula consists of 52 conjuncts, 16 conjunts are in the unsatisfiable core [2022-03-15 20:50:16,904 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:50:17,273 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:17,274 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:50:17,566 INFO L353 Elim1Store]: treesize reduction 10, result has 81.8 percent of original size [2022-03-15 20:50:17,567 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 4 select indices, 4 select index equivalence classes, 0 disjoint index pairs (out of 6 index pairs), introduced 4 new quantified variables, introduced 6 case distinctions, treesize of input 109 treesize of output 139 [2022-03-15 20:50:19,212 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:19,212 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 45 treesize of output 45 [2022-03-15 20:50:19,217 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:19,218 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 41 treesize of output 41 [2022-03-15 20:50:19,276 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:19,277 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [2138386824] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:50:19,277 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:50:19,277 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 6, 6] total 18 [2022-03-15 20:50:19,277 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [802948320] [2022-03-15 20:50:19,277 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:50:19,278 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:50:19,286 INFO L252 McrAutomatonBuilder]: Finished intersection with 68 states and 141 transitions. [2022-03-15 20:50:19,286 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:50:27,816 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 20 new interpolants: [2424#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (= i_BC i_AC) break_AB break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)))), 2410#(and (or (not break_BC) (= (+ (select C i_AC) (* (- 1) (select C i_BC))) 0) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (<= Cn i_BC)) (or (not break_BC) (= (+ (select A i_AC) (* (- 1) (select B i_BC))) 0) (<= Cn i_BC)) (< i_BC Bn)), 2411#(and (or (not break_BC) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (not break_BC) (= i_BC i_AC) (<= Cn i_BC)) (or (not break_BC) (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (< i_BC Bn)), 2419#(and (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (not break_BC) (= (select C i_BC) (select C i_AC)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (not break_BC) (<= (+ i_AC 1) Cn) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC))), 2427#(and (or (not break_BC) (<= Bn i_AB) break_AB) (or (<= Bn i_AB) (= i_BC i_AC) break_AB) (or (<= Bn i_AB) break_AB (= (select B i_BC) (select A i_AC))) (or (<= Bn i_AB) break_AB (<= (+ 2 i_AC) Bn))), 2412#(and (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)))), 2425#(and (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< (+ i_BC 1) Bn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= Bn (+ i_AB 1))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= Bn (+ i_AB 1)))), 2413#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= i_BC i_AC) break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)))), 2414#(and (or (= (+ (select C i_AC) (* (- 1) (select C i_BC))) 0) (<= Bn i_AB) break_AB (<= Cn i_BC)) (or (<= Bn i_AB) (<= (+ i_AC 1) Cn) break_AB (<= Cn i_BC)) (or (<= Bn i_AB) (= (+ (select A i_AC) (* (- 1) (select B i_BC))) 0) break_AB (<= Cn i_BC)) (or (<= Bn i_AB) break_AB (<= (+ i_BC 1) Bn))), 2416#(and (or (<= Bn i_AB) (= i_BC i_AC) break_AB (<= Cn i_BC)) (or (<= Bn i_AB) break_AB (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (<= Bn i_AB) break_AB (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC)) (or (<= Bn i_AB) break_AB (<= (+ i_BC 1) Bn))), 2422#(and (or (<= Bn i_AB) break_AB (< i_BC Bn)) (or (not break_BC) (<= Bn i_AB) (= i_BC i_AC) break_AB (<= Cn i_BC)) (or (not break_BC) (<= Bn i_AB) break_AB (= (select B i_BC) (select A i_AC)) (<= Cn i_BC)) (or (not break_BC) (<= Bn i_AB) break_AB (not (= (select C i_AC) (select A i_AC))) (<= Cn i_BC))), 2426#(and (or (<= Bn i_AB) break_AB (< i_BC Bn)) (or (not break_BC) (<= Bn i_AB) break_AB (<= (+ 2 i_AC) Bn)) (or (not break_BC) (<= Bn i_AB) break_AB (= (select B i_BC) (select A i_AC))) (or (not break_BC) (<= Bn i_AB) (= i_BC i_AC) break_AB) (or (not break_BC) (<= Bn i_AB) (<= (+ i_AC 1) Cn) break_AB) (or (not break_BC) (<= Bn i_AB) break_AB (not (= (select C i_AC) (select A i_AC))))), 2420#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= Bn i_AB) (<= (+ i_AC 1) Cn) break_AB break_BC (not (< i_BC Bn))) (or (not (= (select B i_BC) (select C i_BC))) (not (< i_BC Cn)) (<= Bn i_AB) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) (not (< i_BC Cn)) (<= Bn i_AB) break_AB break_BC (not (< i_BC Bn)))), 2418#(and (or (<= Bn i_AB) break_AB (< i_BC Bn)) (or (not break_BC) (<= Bn i_AB) (= (+ (select A i_AC) (* (- 1) (select B i_BC))) 0) break_AB (<= Cn i_BC)) (or (not break_BC) (= (+ (select C i_AC) (* (- 1) (select C i_BC))) 0) (<= Bn i_AB) break_AB (<= Cn i_BC)) (or (not break_BC) (<= Bn i_AB) (<= (+ i_AC 1) Cn) break_AB (<= Cn i_BC))), 2423#(and (or (not break_BC) break_AB (not (= (select A i_AB) (select B i_AB))) (not (= (select C i_AC) (select A i_AC))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= i_BC i_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (not break_BC) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC))), 2429#(and (or break_AB (<= (+ 2 i_AC) Bn) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or (= i_BC i_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or (not break_BC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)))), 2421#(and (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< (+ i_BC 1) Bn) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_AB break_BC (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_BC Bn)) (<= Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select C i_BC) (select C i_AC)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC))), 2428#(and (or (not break_BC) break_AB (<= (+ 2 i_AC) Bn) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or (not break_BC) (<= (+ i_AC 1) Cn) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (< i_BC Bn)) (or (not break_BC) (= i_BC i_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1))) (or (not break_BC) break_AB (not (= (select A i_AB) (select B i_AB))) (not (= (select C i_AC) (select A i_AC))) (<= Bn (+ i_AB 1))) (or (not break_BC) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)))), 2417#(and (or break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (= i_BC i_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= (+ i_BC 1) Bn)) (or break_AB (not (= (select A i_AB) (select B i_AB))) (not (= (select C i_AC) (select A i_AC))) (<= Bn (+ i_AB 1)) (<= Cn i_BC))), 2415#(and (or break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (= (select C i_BC) (select C i_AC)) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or (<= (+ i_AC 1) Cn) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= Cn i_BC)) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_AB 1)) (<= (+ i_BC 1) Bn)))] [2022-03-15 20:50:27,816 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 28 states [2022-03-15 20:50:27,816 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:50:27,817 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 28 interpolants. [2022-03-15 20:50:27,817 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=340, Invalid=1220, Unknown=0, NotChecked=0, Total=1560 [2022-03-15 20:50:27,818 INFO L87 Difference]: Start difference. First operand 124 states and 400 transitions. Second operand has 28 states, 27 states have (on average 3.185185185185185) internal successors, (86), 27 states have internal predecessors, (86), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:29,114 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:50:29,115 INFO L93 Difference]: Finished difference Result 260 states and 763 transitions. [2022-03-15 20:50:29,115 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 22 states. [2022-03-15 20:50:29,121 INFO L78 Accepts]: Start accepts. Automaton has has 28 states, 27 states have (on average 3.185185185185185) internal successors, (86), 27 states have internal predecessors, (86), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 15 [2022-03-15 20:50:29,121 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:50:29,122 INFO L225 Difference]: With dead ends: 260 [2022-03-15 20:50:29,122 INFO L226 Difference]: Without dead ends: 226 [2022-03-15 20:50:29,123 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 97 GetRequests, 35 SyntacticMatches, 13 SemanticMatches, 49 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 949 ImplicationChecksByTransitivity, 2.1s TimeCoverageRelationStatistics Valid=583, Invalid=1967, Unknown=0, NotChecked=0, Total=2550 [2022-03-15 20:50:29,124 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 142 mSDsluCounter, 165 mSDsCounter, 0 mSdLazyCounter, 584 mSolverCounterSat, 57 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.4s Time, 0 mProtectedPredicate, 0 mProtectedAction, 142 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 641 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 57 IncrementalHoareTripleChecker+Valid, 584 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.4s IncrementalHoareTripleChecker+Time [2022-03-15 20:50:29,124 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [142 Valid, 1 Invalid, 641 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [57 Valid, 584 Invalid, 0 Unknown, 0 Unchecked, 0.4s Time] [2022-03-15 20:50:29,126 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 226 states. [2022-03-15 20:50:29,139 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 226 to 140. [2022-03-15 20:50:29,140 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 140 states, 139 states have (on average 3.1510791366906474) internal successors, (438), 139 states have internal predecessors, (438), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:29,140 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 140 states to 140 states and 438 transitions. [2022-03-15 20:50:29,140 INFO L78 Accepts]: Start accepts. Automaton has 140 states and 438 transitions. Word has length 15 [2022-03-15 20:50:29,141 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:50:29,141 INFO L470 AbstractCegarLoop]: Abstraction has 140 states and 438 transitions. [2022-03-15 20:50:29,141 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 28 states, 27 states have (on average 3.185185185185185) internal successors, (86), 27 states have internal predecessors, (86), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:29,141 INFO L276 IsEmpty]: Start isEmpty. Operand 140 states and 438 transitions. [2022-03-15 20:50:29,142 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 16 [2022-03-15 20:50:29,142 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:50:29,142 INFO L514 BasicCegarLoop]: trace histogram [2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:50:29,159 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (7)] Forceful destruction successful, exit code 0 [2022-03-15 20:50:29,347 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable6,7 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:29,347 INFO L402 AbstractCegarLoop]: === Iteration 8 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:50:29,348 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:50:29,348 INFO L85 PathProgramCache]: Analyzing trace with hash -1556592779, now seen corresponding path program 3 times [2022-03-15 20:50:29,363 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:50:29,364 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1162502423] [2022-03-15 20:50:29,364 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:50:29,364 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:50:29,374 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:50:29,704 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 1 proven. 4 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:29,704 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:50:29,704 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1162502423] [2022-03-15 20:50:29,704 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1162502423] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:50:29,704 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [663763991] [2022-03-15 20:50:29,704 INFO L93 rtionOrderModulation]: Changing assertion order to OUTSIDE_LOOP_FIRST2 [2022-03-15 20:50:29,704 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:29,705 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:50:29,706 INFO L229 MonitoredProcess]: Starting monitored process 8 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:50:29,706 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (8)] Waiting until timeout for monitored process [2022-03-15 20:50:29,733 INFO L228 tOrderPrioritization]: Assert order OUTSIDE_LOOP_FIRST2 issued 2 check-sat command(s) [2022-03-15 20:50:29,733 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2022-03-15 20:50:29,734 INFO L263 TraceCheckSpWp]: Trace formula consists of 49 conjuncts, 16 conjunts are in the unsatisfiable core [2022-03-15 20:50:29,735 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:50:30,388 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:30,388 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:50:30,666 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:30,666 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 76 treesize of output 92 [2022-03-15 20:50:30,943 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:30,943 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 70 treesize of output 86 [2022-03-15 20:50:30,962 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:30,962 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 62 treesize of output 78 [2022-03-15 20:50:31,361 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 2 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:31,361 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [663763991] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:50:31,361 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:50:31,361 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 6, 6] total 17 [2022-03-15 20:50:31,361 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [96501387] [2022-03-15 20:50:31,362 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:50:31,363 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:50:31,370 INFO L252 McrAutomatonBuilder]: Finished intersection with 68 states and 141 transitions. [2022-03-15 20:50:31,370 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:50:46,641 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 17 new interpolants: [3111#(and (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)))), 3096#(and (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)))), 3102#(and (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (not (= (select C (+ i_BC 1)) (select B (+ i_BC 1))))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (= i_AB 0)) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) break_AC (<= An i_AC) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) break_AC (<= An i_AC) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (<= (+ i_AB 1) An) break_AC (<= An i_AC)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) break_AC (<= An i_AC) (< Bn (+ i_AB 1)))), 3103#(and (or (<= Bn i_BC) (<= An (+ i_AC 1)) (<= (+ i_AC 1) Bn) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= (select A i_AB) (select C i_BC)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)) (= (+ i_BC 1) i_AC)) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (not (= (select A i_AC) (select B (+ i_BC 1)))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An)) (or (<= Bn i_BC) (<= An (+ i_AC 1)) (< Bn (+ i_AB 1)) (= i_AB 0))), 3101#(and (or (<= Bn i_BC) (<= (+ i_AB 1) An)) (or (<= Bn i_BC) (< Bn (+ i_AB 1)) (= i_AB 0)) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (< Bn (+ i_AB 1)) (not (= (select C (+ i_BC 1)) (select B (+ i_BC 1)))))), 3097#(and (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_AC (<= An i_AC) (<= (+ i_BC 1) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) break_AC (<= An i_AC)) (or break_AC (<= An i_AC) (< i_AB An)) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn)) break_AC (<= An i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_AC (<= An i_AC) (= i_AB 0)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) break_AC (<= An i_AC))), 3109#(and (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= Bn i_AB) (<= An i_AB) break_AC break_AB (<= An i_AC) (= (select B i_AB) (select B (+ i_BC 1))) (= (select A i_AB) (select B i_AB))) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AC break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC)) (or (<= Bn i_BC) (not (< i_AB Bn)) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) (<= Bn i_AB) (<= An i_AB) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= Bn i_AB) (<= An i_AB) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (= (select A i_AB) (select C (+ i_BC 1))))), 3110#(and (or (<= Bn i_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select B i_AB) (select B (+ i_BC 1))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) (<= (+ i_AC 1) Bn) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB))) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= (+ i_BC 1) i_AC)) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= (select A i_AB) (select C i_BC)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0)) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (= (select A i_AB) (select C (+ i_BC 1))) (not (< i_AB An)))), 3105#(and (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) break_AC (<= An i_AC) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (not (= (select C (+ i_BC 1)) (select B (+ i_BC 1))))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) break_AC (<= An i_AC) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) break_AC (<= An i_AC) (< i_AB An)) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) break_AC (<= An i_AC) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) break_AC (<= An i_AC) (< Bn (+ i_AB 1)) (= i_AB 0)) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) break_AC (<= An i_AC) (< Bn (+ i_AB 1)))), 3104#(and (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (not break_AB) (< Bn (+ i_AB 1)) (= i_AB 0)) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (< Bn (+ i_AB 1)) (not (= (select C (+ i_BC 1)) (select B (+ i_BC 1))))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (< i_AB An))), 3108#(and (or (<= Bn i_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= (+ 2 i_BC) Bn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select B i_AB) (select B (+ i_BC 1))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (= (select A i_AB) (select C i_BC)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB))) (or (<= Bn i_BC) (not (= (select B i_BC) (select C i_BC))) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= i_AB 0))), 3106#(and (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (not (= (select A i_AC) (select B (+ i_BC 1)))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)) (= (select A i_AB) (select C (+ i_BC 1)))) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (= (select B i_AB) (select B (+ i_BC 1))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (<= An (+ i_AC 1)) (< Bn (+ i_AB 1)) (= i_AB 0)) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (= (select B i_BC) (select B i_AB)) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (<= An (+ i_AC 1)) (< i_AB An)) (or (<= Bn i_BC) (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= An (+ i_AC 1)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)) (= (+ i_BC 1) i_AC)) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (<= An (+ i_AC 1)) (<= (+ i_AC 1) Bn) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1))) (or (<= Bn i_BC) (not break_AB) (= (select B i_BC) (select C i_BC)) (<= An (+ i_AC 1)) (= (select A i_AB) (select C i_BC)) (not (= (select C i_AC) (select A i_AC))) (< Bn (+ i_AB 1)))), 3099#(and (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (<= (+ i_AC 1) Bn) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (= i_AB 0)) (or (<= An (+ i_AC 1)) (< i_AB An)) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (not (= (select B i_BC) (select A i_AC)))) (or (not break_AB) (<= An (+ i_AC 1)) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))))), 3100#(and (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (<= (+ i_AC 1) Bn) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= i_BC i_AC) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (= (select A i_AB) (select C i_BC)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)))), 3095#(and (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= i_AB 0)) (or (not break_AB) (= (select A i_AB) (select C i_BC)) (not (<= (+ i_AB 1) Bn))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn))) (or (not break_AB) (= (select B i_BC) (select B i_AB)) (not (<= (+ i_AB 1) Bn))) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (<= (+ i_BC 1) Bn)) (< i_AB An)), 3098#(and (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AC break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select B i_AB)) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select A i_AB) (select C i_BC)) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AC break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_AB 0))), 3107#(and (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select B i_BC) (select A i_AC)))) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (= i_AB 0)) (or (<= An (+ i_AC 1)) (< i_AB An)) (or (not break_AB) (<= An (+ i_AC 1)) (= i_BC i_AC) (not (<= (+ i_AB 1) Bn))) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (= i_BC i_AB)))] [2022-03-15 20:50:46,642 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 25 states [2022-03-15 20:50:46,642 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:50:46,642 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 25 interpolants. [2022-03-15 20:50:46,642 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=201, Invalid=1059, Unknown=0, NotChecked=0, Total=1260 [2022-03-15 20:50:46,643 INFO L87 Difference]: Start difference. First operand 140 states and 438 transitions. Second operand has 25 states, 24 states have (on average 3.2083333333333335) internal successors, (77), 24 states have internal predecessors, (77), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:48,674 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:50:48,674 INFO L93 Difference]: Finished difference Result 290 states and 835 transitions. [2022-03-15 20:50:48,674 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 20 states. [2022-03-15 20:50:48,674 INFO L78 Accepts]: Start accepts. Automaton has has 25 states, 24 states have (on average 3.2083333333333335) internal successors, (77), 24 states have internal predecessors, (77), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 15 [2022-03-15 20:50:48,675 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:50:48,676 INFO L225 Difference]: With dead ends: 290 [2022-03-15 20:50:48,676 INFO L226 Difference]: Without dead ends: 224 [2022-03-15 20:50:48,677 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 97 GetRequests, 37 SyntacticMatches, 15 SemanticMatches, 45 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 788 ImplicationChecksByTransitivity, 3.2s TimeCoverageRelationStatistics Valid=359, Invalid=1803, Unknown=0, NotChecked=0, Total=2162 [2022-03-15 20:50:48,677 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 118 mSDsluCounter, 139 mSDsCounter, 0 mSdLazyCounter, 537 mSolverCounterSat, 48 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.4s Time, 0 mProtectedPredicate, 0 mProtectedAction, 118 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 585 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 48 IncrementalHoareTripleChecker+Valid, 537 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.5s IncrementalHoareTripleChecker+Time [2022-03-15 20:50:48,678 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [118 Valid, 1 Invalid, 585 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [48 Valid, 537 Invalid, 0 Unknown, 0 Unchecked, 0.5s Time] [2022-03-15 20:50:48,678 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 224 states. [2022-03-15 20:50:48,689 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 224 to 137. [2022-03-15 20:50:48,689 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 137 states, 136 states have (on average 3.0073529411764706) internal successors, (409), 136 states have internal predecessors, (409), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:48,690 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 137 states to 137 states and 409 transitions. [2022-03-15 20:50:48,690 INFO L78 Accepts]: Start accepts. Automaton has 137 states and 409 transitions. Word has length 15 [2022-03-15 20:50:48,690 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:50:48,690 INFO L470 AbstractCegarLoop]: Abstraction has 137 states and 409 transitions. [2022-03-15 20:50:48,690 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 25 states, 24 states have (on average 3.2083333333333335) internal successors, (77), 24 states have internal predecessors, (77), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:50:48,690 INFO L276 IsEmpty]: Start isEmpty. Operand 137 states and 409 transitions. [2022-03-15 20:50:48,695 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 16 [2022-03-15 20:50:48,696 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:50:48,696 INFO L514 BasicCegarLoop]: trace histogram [2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:50:48,722 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (8)] Forceful destruction successful, exit code 0 [2022-03-15 20:50:48,896 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: SelfDestructingSolverStorable7,8 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:48,897 INFO L402 AbstractCegarLoop]: === Iteration 9 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:50:48,897 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:50:48,897 INFO L85 PathProgramCache]: Analyzing trace with hash -123616844, now seen corresponding path program 4 times [2022-03-15 20:50:48,898 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:50:48,898 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [1376613339] [2022-03-15 20:50:48,898 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:50:48,898 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:50:48,908 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:50:49,258 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:49,258 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:50:49,258 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [1376613339] [2022-03-15 20:50:49,258 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [1376613339] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:50:49,258 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [575196932] [2022-03-15 20:50:49,258 INFO L93 rtionOrderModulation]: Changing assertion order to TERMS_WITH_SMALL_CONSTANTS_FIRST [2022-03-15 20:50:49,259 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:50:49,259 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:50:49,260 INFO L229 MonitoredProcess]: Starting monitored process 9 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:50:49,270 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (9)] Waiting until timeout for monitored process [2022-03-15 20:50:49,295 INFO L228 tOrderPrioritization]: Assert order TERMS_WITH_SMALL_CONSTANTS_FIRST issued 0 check-sat command(s) [2022-03-15 20:50:49,295 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2022-03-15 20:50:49,297 INFO L263 TraceCheckSpWp]: Trace formula consists of 49 conjuncts, 16 conjunts are in the unsatisfiable core [2022-03-15 20:50:49,298 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:50:49,918 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 0 proven. 5 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:49,918 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:50:50,142 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:50,142 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 1 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 69 treesize of output 85 [2022-03-15 20:50:50,486 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:50,487 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 102 treesize of output 114 [2022-03-15 20:50:50,500 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:50:50,501 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 3 select indices, 3 select index equivalence classes, 0 disjoint index pairs (out of 3 index pairs), introduced 3 new quantified variables, introduced 3 case distinctions, treesize of input 90 treesize of output 102 [2022-03-15 20:50:51,085 INFO L134 CoverageAnalysis]: Checked inductivity of 5 backedges. 2 proven. 3 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:50:51,086 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [575196932] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:50:51,086 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:50:51,086 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [6, 6, 6] total 17 [2022-03-15 20:50:51,086 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [1725318654] [2022-03-15 20:50:51,086 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:50:51,087 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:50:51,094 INFO L252 McrAutomatonBuilder]: Finished intersection with 70 states and 147 transitions. [2022-03-15 20:50:51,094 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:51:51,689 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 23 new interpolants: [3811#(and (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) break_BC (<= An i_AC) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (<= Bn (+ i_BC 1))) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) break_BC (<= An i_AC) (<= Bn (+ i_BC 1))) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) break_BC (<= An i_AC) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (<= i_AB 0)) (or (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (<= Bn (+ i_BC 1))) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (<= i_AB 0))), 3808#(and (or (not break_AB) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0)) (or (not break_AB) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn))) (or (<= Bn i_BC) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (<= Bn i_BC) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC) (< (+ i_BC 1) Cn)) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (not break_AB) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (<= Bn i_BC) (= (select B i_BC) (select C i_BC)) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (<= Bn i_BC) (< (+ i_BC 1) Bn) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_BC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0)) (or (<= Bn i_BC) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Cn i_BC) (< (+ i_BC 1) Cn)) (or (not break_AB) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not break_AB) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not break_AB) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0))), 3821#(and (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (not (< i_AB An)))), 3819#(and (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= Cn i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (= (select C (+ i_AC 1)) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An))) (or (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) break_AB (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (= (select C i_AC) (select A i_AC)))), 3806#(and (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (<= (+ i_AC 1) Cn) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_BC) (< i_AC (+ An 1)) (< i_AB An)) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC))) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC))) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (< i_BC Bn)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (< i_BC Cn) (< i_AC (+ An 1)) (< i_AB An)) (or (not break_BC) (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (< 0 (+ i_AB 1)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_BC) (<= An i_AC) (< i_AB An)) (or (not break_BC) (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< i_BC Bn)) (or (not break_AB) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0)) (or (<= An i_AC) (< i_AB An) (< i_BC Bn)) (or (not break_BC) (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0) (< i_BC Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (< i_AC (+ An 1)) (< i_AB An) (< i_BC Bn)) (or (< i_BC Cn) (<= An i_AC) (< i_AB An)) (or (not break_AB) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0) (< i_BC Bn)) (or (not break_AB) (<= (+ i_AC 1) Cn) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (not break_AB) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (not break_BC) (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0))), 3802#(and (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (<= An i_AC) (< i_AB An)) (or (< i_AC (+ An 1)) (< i_AB An)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC))), 3810#(and (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (<= An (+ i_AC 1)) break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (= i_BC (+ i_AC 1)) break_BC (<= An i_AC) (< i_AB An) (<= Cn i_AC)) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (<= i_AB 0)) (or (not break_AB) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_BC (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) break_BC (< i_AB An) (<= Cn i_AC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC))) (or break_BC (<= An i_AC) (< i_AB An) (<= Cn i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB)) (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (<= An (+ i_AC 1)) break_BC (<= Cn i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (not break_AB) (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (<= Cn i_AC) (< Bn (+ i_AB 1)))), 3817#(and (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (<= Bn i_BC) (not (< i_AB Bn)) (< (+ i_BC 1) Bn) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (<= Bn i_BC) (not (< i_AB Bn)) (< (+ i_BC 1) Bn) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (<= Bn i_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) break_AB break_BC (not (< i_BC Bn)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (<= Bn i_BC) (not (< i_AB Bn)) (= (select B i_BC) (select C i_BC)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_BC) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< i_AC (+ An 1)) break_AB break_BC (not (< i_BC Bn)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< (+ i_BC 1) Cn))), 3822#(and (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) break_AB (= (select A i_AB) (select B i_AB)) (<= An (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (<= An (+ i_BC 1)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (<= An (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= (+ i_BC 1) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) break_AB (= (select A i_AB) (select B i_AB)) (<= An (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An)) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (<= An (+ i_BC 1)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select B i_AB)) (<= (+ i_BC 1) An) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= (+ i_BC 1) i_AC)) (or (not (< i_AB Bn)) (not (= (select B i_BC) (select C i_BC))) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= (+ i_BC 1) i_AC))), 3816#(and (or (not (< i_AB Bn)) (< i_BC Cn) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_BC Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_BC Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_BC Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_BC Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (< i_BC Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0) (< i_BC Bn)) (or (not (< i_AB Bn)) (< i_BC Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0) (< i_BC Bn)) (or (not (< i_AB Bn)) (< i_BC Cn) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_BC Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< i_BC Cn) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn)) (or (not break_BC) (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not break_BC) (not (< i_AB Bn)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< i_BC Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_BC Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (< i_BC Bn))), 3807#(and (or (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn))) (or (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn))) (or (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< (+ i_BC 1) Bn) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AB 1) An) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (<= i_AB 0)) (or (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC)) (or (not (< i_BC Cn)) (<= (+ i_AB 1) An) break_BC (not (< i_BC Bn)) (<= An i_AC) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn)) (< (+ i_BC 1) Cn)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0)) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0) (< (+ i_BC 1) Cn)) (or (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) break_BC (not (< i_BC Bn)) (<= An i_AC) (<= i_AB 0)) (or (< 0 (+ i_AB 1)) (not (< i_BC Cn)) (< (+ i_BC 1) Bn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) break_BC (not (< i_BC Bn))) (or (= (select B i_BC) (select C i_BC)) (not (< i_BC Cn)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (not (< i_BC Bn)) (<= An i_AC))), 3805#(and (or (not break_BC) (<= (+ i_AB 1) An) (< i_AC (+ An 1))) (or (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC)) (< i_BC Bn)) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (<= (+ i_AC 1) Cn) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0)) (or (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0) (< i_BC Bn)) (or (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0)) (or (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (<= i_AB 0) (< i_BC Bn)) (or (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (<= (+ i_AB 1) An) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_BC) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0)) (or (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (< i_BC Bn)) (or (not break_BC) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< i_BC Bn)) (or (not break_BC) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (= (select B i_AB) (select C i_AC)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC))) (or (<= (+ i_AC 1) Cn) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (= (select A i_AB) (select A i_AC))) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (< 0 (+ i_AB 1)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (not break_BC) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1))) (or (<= (+ i_AB 1) An) (< i_BC Cn) (< i_AC (+ An 1))) (or (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) (<= An i_AC) (< i_BC Bn)) (or (<= (+ i_AB 1) An) (< i_BC Cn) (<= An i_AC)) (or (< 0 (+ i_AB 1)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC)) (or (not break_BC) (not (<= (+ i_AB 1) Bn)) (< i_AC (+ An 1)) (<= i_AB 0)) (or (not break_BC) (<= (+ i_AB 1) An) (<= An i_AC)) (or (<= (+ i_AB 1) An) (< i_AC (+ An 1)) (< i_BC Bn)) (or (= (select B i_AB) (select C i_AC)) (< i_BC Cn) (not (<= (+ i_AB 1) Bn)) (<= An i_AC))), 3815#(and (or (not (< i_AB Bn)) (< (+ i_AB 1) An) (< i_AC (+ An 1)) break_AB (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (< i_AC (+ An 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An)))), 3809#(and (or break_BC (<= An i_AC) (< i_AB An)) (or (not break_AB) (<= (+ i_AC 1) Cn) (<= i_BC An) (not (<= (+ i_AB 1) Bn)) break_BC) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (* (- 1) i_AC) i_BC) 0) (<= i_AB 0)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (<= i_BC An) (not (<= (+ i_AB 1) Bn)) break_BC) (or (not break_AB) (< 0 (+ i_AB 1)) (<= i_BC An) (not (<= (+ i_AB 1) Bn)) break_BC) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) break_BC (<= An i_AC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (<= i_BC An) (not (<= (+ i_AB 1) Bn)) break_BC (<= i_AB 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_BC (<= An i_AC) (<= i_AB 0)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC)) (or (not break_AB) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (= (+ (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) break_BC (<= An i_AC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) break_BC (<= An i_AC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (* (- 1) i_AC) i_BC) 0)) (or (not break_AB) (<= i_BC An) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC))) (or (<= i_BC An) break_BC (< i_AB An)) (or (= i_BC i_AC) break_BC (< i_AB An))), 3813#(and (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= An (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (< i_AB An) (<= (+ i_BC 1) An)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (<= An (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (<= i_AB 0) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= An (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (<= An (+ i_BC 1)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (+ i_BC 1) i_AC)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (<= (+ i_BC 1) An)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (= (+ i_BC 1) i_AC)) (or (not (= (select B i_BC) (select C i_BC))) (< i_AB An) (= (+ i_BC 1) i_AC)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= (+ i_BC 1) An)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (not (<= (+ i_AB 1) Bn)) (<= An (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (< i_AB An) (<= An (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (<= (+ i_BC 1) An) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (<= (+ i_BC 1) An)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= (+ i_AC 1) Cn) (not (<= (+ i_AB 1) Bn)) (<= (+ i_BC 1) An))), 3814#(and (or (<= (+ i_AC 1) An) (< i_AB An)) (or (not break_AB) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select B i_BC) (select A i_AC)))) (or (< i_AB Bn) (= (+ i_AC (* (- 1) i_BC)) 0)) (or (not break_AB) (= (+ i_AC (* (- 1) i_BC)) 0)) (or (not break_AB) (= (select B i_BC) (select A i_AC)) (<= i_AB 0)) (or (< i_AB Bn) (= (select B i_BC) (select A i_AC)) (<= i_AB 0)) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An)) (or (not break_AB) (< 0 (+ i_AB 1)) (= (select B i_BC) (select A i_AC))) (or (not break_AB) (= (select B i_BC) (select A i_AC)) (= i_BC i_AB)) (or (= (select B i_BC) (select A i_AC)) (< i_AB An)) (or (< i_AB Bn) (= (select B i_BC) (select A i_AC)) (= i_BC i_AB)) (or (not break_AB) (<= (+ i_AC 1) An) (not (<= (+ i_AB 1) Bn))) (or (< 0 (+ i_AB 1)) (< i_AB Bn) (= (select B i_BC) (select A i_AC))) (or (= (+ i_AC (* (- 1) i_BC)) 0) (< i_AB An))), 3820#(and (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (not (< i_AB An)) (<= i_AB 0)) (or (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (= (select A i_AB) (select B i_AB)) (<= Cn i_AC)) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (= (select A i_AB) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (<= i_AB 0)) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (= (select C (+ i_AC 1)) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (<= An (+ i_AC 1)) (<= Bn i_AB) (<= An i_AB) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= Cn i_AC)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB break_BC (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (= (select C (+ i_AC 1)) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (<= Cn i_AC) (= (select C i_AC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An))) (or (= i_BC (+ i_AC 1)) (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= Bn i_AB) (<= An i_AB) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (select C i_AC) (select A i_AC))) (or (not (< i_AB Bn)) (not (< i_AC Cn)) (not (< i_AC An)) break_AB break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (= (select A i_AB) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (<= Cn i_AC) (not (< i_AB An)))), 3812#(and (or (not break_AB) (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< i_AB An) (<= Bn (+ i_BC 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< i_AB An) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< 0 (+ i_AB 1)) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (< 0 (+ i_AB 1)) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select B i_AB) (select C i_AC)) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< i_AB An) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (<= i_AB 0)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= (+ i_AC 1) Cn) break_BC (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)) (< (+ 2 i_BC) Bn)) (or (not break_AB) (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (= (select A i_AB) (select A i_AC)) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1))) (or (not (= (select B i_BC) (select C i_BC))) (= (select C (+ i_BC 1)) (select B (+ i_BC 1))) (<= Cn (+ i_BC 1)) (< i_AC (+ An 1)) break_BC (< i_AB An) (<= Bn (+ i_BC 1))) (or (not break_AB) (< (+ 2 i_BC) Cn) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (< Bn (+ i_AB 1)) (<= Bn (+ i_BC 1)))), 3818#(and (or (not (< i_AB Bn)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (= (+ (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= i_BC An) break_AB break_BC (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (* (- 1) i_AC) i_BC) 0) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) (<= i_BC An) break_AB break_BC (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An i_AC) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) Cn) (<= i_BC An) break_AB break_BC (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB break_BC (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) (<= i_BC An) break_AB break_BC (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB break_BC (= (select A i_AB) (select A i_AC)) (<= An i_AC) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (select B i_AB) (select C i_AC)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= i_BC An) break_AB break_BC (= (select A i_AB) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB break_BC (= (select A i_AB) (select B i_AB)) (= (+ (* (- 1) i_AC) i_BC) 0) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= i_BC An) (< (+ i_AB 1) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An)))), 3801#(and (or (not (< i_AC Cn)) (<= An (+ i_AC 1)) (<= (+ i_AB 1) An)) (or (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC)))) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= (+ i_AB 1) An) (= (select C i_AC) (select A i_AC))) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC))) (or (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn))) (or (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB))) (or (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (<= i_AB 0)) (or (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn)) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select C i_AC) (select A i_AC))) (or (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC)))), 3823#(and (or (not (< i_AB Bn)) (= (+ i_AC (* (- 1) i_BC)) 0) (< (+ i_AB 1) Bn) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (= i_BC i_AC) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (<= (+ 2 i_AB) An) (not (< i_AB An))) (or (not (< i_AB Bn)) (< 0 (+ i_AB 1)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) break_AB (= (select A i_AB) (select B i_AB)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= An (+ i_AC 1)) break_AB (= (select A i_AB) (select B i_AB)) (not (= (select B i_BC) (select A i_AC))) (not (< i_AB An))) (or (not (< i_AB Bn)) (= (+ i_AB 1) i_BC) (< (+ i_AB 1) Bn) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An))) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (= i_BC i_AB)) (or (not (< i_AB Bn)) break_AB (= (select B i_BC) (select A i_AC)) (= (select A i_AB) (select B i_AB)) (not (< i_AB An)) (<= i_AB 0)) (or (not (< i_AB Bn)) (< 0 (+ 2 i_AB)) (< (+ i_AB 1) Bn) break_AB (= (select B i_BC) (select A i_AC)) (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AC 1) An) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (= (+ i_AC (* (- 1) i_BC)) 0) (< (+ i_AB 1) An) break_AB (not (< i_AB An))) (or (not (< i_AB Bn)) (<= (+ i_AB 1) 0) (< (+ i_AB 1) Bn) break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (not (< i_AB An)))), 3804#(and (or (not (< i_AC Cn)) (not (< i_AC An)) (<= (+ i_AB 1) An) break_BC (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB)) (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (<= An (+ i_AC 1)) (<= (+ i_AB 1) An) break_BC (<= Cn i_AC)) (or (< 0 (+ i_AB 1)) (<= An (+ i_AC 1)) break_BC (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB)) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC))) (or (<= An (+ i_AC 1)) break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (not (< i_AC Cn)) (not (< i_AC An)) (<= (+ i_AB 1) An) break_BC (= (select C i_AC) (select A i_AC))) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (<= An (+ i_AC 1)) break_BC (<= Cn i_AC) (< Bn (+ i_AB 1)) (<= i_AB 0)) (or (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC))) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (= (+ (- 1) (* (- 1) i_AC) i_BC) 0)) (or (<= An (+ i_AC 1)) break_BC (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC))) (<= Cn i_AC) (< Bn (+ i_AB 1))) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (+ (- 1) (* (- 1) i_AC) i_BC) 0) (<= i_AB 0)) (or (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) break_BC (= (select A i_AB) (select A i_AC)) (= (select C i_AC) (select A i_AC)))), 3803#(and (or (not break_AB) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A (+ i_AC 1))) (not (= (select C i_AC) (select A i_AC)))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select A i_AB) (select A i_AC)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (<= i_AB 0)) (or (not break_AB) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (<= (+ 2 i_AC) Cn)) (or (<= An (+ i_AC 1)) (< i_AB An) (<= Cn i_AC)) (or (not break_AB) (= (select B i_AB) (select C i_AC)) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_AC Cn)) (not (< i_AC An)) (not (<= (+ i_AB 1) Bn)) (= (select C i_AC) (select A i_AC)) (<= i_AB 0)) (or (<= An i_AC) (< i_AB An) (<= Cn i_AC) (= (select C i_AC) (select A i_AC))) (or (not break_AB) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn)) (not (= (select C i_AC) (select A i_AC))) (= (select C (+ i_AC 1)) (select B i_AB))) (or (not break_AB) (< 0 (+ i_AB 1)) (not (< i_AC Cn)) (<= An (+ i_AC 1)) (not (<= (+ i_AB 1) Bn))))] [2022-03-15 20:51:51,689 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 31 states [2022-03-15 20:51:51,690 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:51:51,690 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 31 interpolants. [2022-03-15 20:51:51,690 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=195, Invalid=1527, Unknown=0, NotChecked=0, Total=1722 [2022-03-15 20:51:51,690 INFO L87 Difference]: Start difference. First operand 137 states and 409 transitions. Second operand has 31 states, 30 states have (on average 3.1666666666666665) internal successors, (95), 30 states have internal predecessors, (95), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:11,699 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:53:11,699 INFO L93 Difference]: Finished difference Result 416 states and 1064 transitions. [2022-03-15 20:53:11,700 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 67 states. [2022-03-15 20:53:11,700 INFO L78 Accepts]: Start accepts. Automaton has has 31 states, 30 states have (on average 3.1666666666666665) internal successors, (95), 30 states have internal predecessors, (95), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 15 [2022-03-15 20:53:11,700 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:53:11,701 INFO L225 Difference]: With dead ends: 416 [2022-03-15 20:53:11,702 INFO L226 Difference]: Without dead ends: 279 [2022-03-15 20:53:11,704 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 143 GetRequests, 37 SyntacticMatches, 11 SemanticMatches, 95 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 2441 ImplicationChecksByTransitivity, 83.9s TimeCoverageRelationStatistics Valid=1316, Invalid=7996, Unknown=0, NotChecked=0, Total=9312 [2022-03-15 20:53:11,704 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 297 mSDsluCounter, 476 mSDsCounter, 0 mSdLazyCounter, 2163 mSolverCounterSat, 158 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 2.1s Time, 0 mProtectedPredicate, 0 mProtectedAction, 297 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 2321 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 158 IncrementalHoareTripleChecker+Valid, 2163 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 2.3s IncrementalHoareTripleChecker+Time [2022-03-15 20:53:11,704 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [297 Valid, 1 Invalid, 2321 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [158 Valid, 2163 Invalid, 0 Unknown, 0 Unchecked, 2.3s Time] [2022-03-15 20:53:11,705 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 279 states. [2022-03-15 20:53:11,709 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 279 to 87. [2022-03-15 20:53:11,709 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 87 states, 86 states have (on average 2.86046511627907) internal successors, (246), 86 states have internal predecessors, (246), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:11,709 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 87 states to 87 states and 246 transitions. [2022-03-15 20:53:11,710 INFO L78 Accepts]: Start accepts. Automaton has 87 states and 246 transitions. Word has length 15 [2022-03-15 20:53:11,710 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:53:11,710 INFO L470 AbstractCegarLoop]: Abstraction has 87 states and 246 transitions. [2022-03-15 20:53:11,710 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 31 states, 30 states have (on average 3.1666666666666665) internal successors, (95), 30 states have internal predecessors, (95), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:11,710 INFO L276 IsEmpty]: Start isEmpty. Operand 87 states and 246 transitions. [2022-03-15 20:53:11,710 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 17 [2022-03-15 20:53:11,711 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:53:11,711 INFO L514 BasicCegarLoop]: trace histogram [2, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:53:11,730 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (9)] Forceful destruction successful, exit code 0 [2022-03-15 20:53:11,919 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 9 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable8 [2022-03-15 20:53:11,920 INFO L402 AbstractCegarLoop]: === Iteration 10 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:53:11,920 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:53:11,920 INFO L85 PathProgramCache]: Analyzing trace with hash -2078954888, now seen corresponding path program 5 times [2022-03-15 20:53:11,923 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:53:11,924 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [883182365] [2022-03-15 20:53:11,924 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:53:11,924 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:53:11,938 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:53:12,046 INFO L134 CoverageAnalysis]: Checked inductivity of 7 backedges. 0 proven. 7 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:12,047 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:53:12,047 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [883182365] [2022-03-15 20:53:12,047 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [883182365] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:53:12,047 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [484921020] [2022-03-15 20:53:12,047 INFO L93 rtionOrderModulation]: Changing assertion order to INSIDE_LOOP_FIRST1 [2022-03-15 20:53:12,047 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:53:12,047 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:53:12,048 INFO L229 MonitoredProcess]: Starting monitored process 10 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:53:12,071 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (10)] Waiting until timeout for monitored process [2022-03-15 20:53:12,088 INFO L228 tOrderPrioritization]: Assert order INSIDE_LOOP_FIRST1 issued 2 check-sat command(s) [2022-03-15 20:53:12,088 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2022-03-15 20:53:12,089 INFO L263 TraceCheckSpWp]: Trace formula consists of 53 conjuncts, 15 conjunts are in the unsatisfiable core [2022-03-15 20:53:12,090 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:53:12,310 INFO L353 Elim1Store]: treesize reduction 7, result has 12.5 percent of original size [2022-03-15 20:53:12,311 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 92 treesize of output 82 [2022-03-15 20:53:12,435 INFO L134 CoverageAnalysis]: Checked inductivity of 7 backedges. 0 proven. 7 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:12,436 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:53:12,670 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:53:12,670 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 44 treesize of output 48 [2022-03-15 20:53:12,888 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:53:12,889 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 29 treesize of output 33 [2022-03-15 20:53:12,895 INFO L353 Elim1Store]: treesize reduction 0, result has 100.0 percent of original size [2022-03-15 20:53:12,896 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 2 select indices, 2 select index equivalence classes, 0 disjoint index pairs (out of 1 index pairs), introduced 2 new quantified variables, introduced 1 case distinctions, treesize of input 29 treesize of output 33 [2022-03-15 20:53:12,944 INFO L134 CoverageAnalysis]: Checked inductivity of 7 backedges. 1 proven. 6 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:12,944 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [484921020] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:53:12,944 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:53:12,944 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [7, 7, 7] total 18 [2022-03-15 20:53:12,945 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [500995891] [2022-03-15 20:53:12,945 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:53:12,946 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:53:12,955 INFO L252 McrAutomatonBuilder]: Finished intersection with 87 states and 189 transitions. [2022-03-15 20:53:12,955 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:53:20,135 INFO L301 McrAutomatonBuilder]: Construction finished. MCR generated 28 new interpolants: [4642#(and (or (<= An i_AB) break_AB break_BC (= (select C i_AC) (select A i_AC))) (or (not break_AC) (<= An i_AB) break_AB break_BC) (or (<= An i_AB) break_AB break_BC (<= (+ i_AC 1) i_BC)) (or (<= (+ 2 i_AC) An) (<= An i_AB) break_AB break_BC)), 4649#(and (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC (< i_AC Cn)) (or (< i_AC An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC)), 4656#(and (or (< i_AC An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (< i_AC Cn) (<= An (+ i_AB 1)))), 4653#(and (or (<= (+ 2 i_AC) An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC) (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) break_BC) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (<= (+ 2 i_AC) Cn)) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (= (select C i_AC) (select A i_AC)))), 4643#(or break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))), 4633#(or break_BC (<= Cn i_BC)), 4637#(and (or break_BC (<= (+ 2 i_AC) Cn) (<= Cn i_BC)) (or (<= (+ 2 i_AC) An) break_BC (<= Cn i_BC)) (or (not break_AC) break_BC (<= Cn i_BC)) (or break_BC (<= Cn i_BC) (= (select C i_AC) (select A i_AC)))), 4654#(and (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC) (or (<= (+ 2 i_AC) An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC (<= (+ 2 i_AC) Cn))), 4660#(and (or (not break_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (<= (+ 2 i_AC) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or break_AB (= (select B i_BC) (select A i_AC)) (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (= i_BC i_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)))), 4639#(and (or (<= An i_AB) break_AB break_BC (< i_AC Cn) (<= Cn i_BC)) (or (< i_AC An) (<= An i_AB) break_AB break_BC (<= Cn i_BC)) (or (not break_AC) (<= An i_AB) break_AB break_BC (<= Cn i_BC))), 4648#(or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) (<= An i_AB) break_AB break_BC), 4634#(or (<= An i_AB) break_AB), 4647#(and (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) break_BC) (or (< i_AC An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC (< i_AC Cn))), 4644#(and (or (not break_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or break_AB (not (= (select A i_AB) (select B i_AB))) (< i_AC Cn) (<= An (+ i_AB 1))) (or (< i_AC An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)))), 4658#(and (or (= i_BC i_AC) (<= An i_AB) break_AB) (or (<= An i_AB) break_AB (= (select B i_BC) (select A i_AC))) (or (<= (+ 2 i_AC) An) (<= An i_AB) break_AB) (or (not break_AC) (<= An i_AB) break_AB)), 4645#(and (or (not break_AC) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (<= (+ 2 i_AC) An) break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= (+ 2 i_AC) Cn) (<= An (+ i_AB 1))) (or break_AB (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (= (select C i_AC) (select A i_AC)))), 4650#(or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC)), 4646#(or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_BC), 4638#(and (or (< i_AC An) (<= An i_AB) break_AB) (or (<= An i_AB) break_AB (< i_AC Cn)) (or (not break_AC) (<= An i_AB) break_AB)), 4655#(or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))), 4651#(and (or (not break_AC) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC)) (or (< i_AC An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC)) (or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (< i_AC Cn) (<= An (+ i_AB 1)) (<= Cn i_BC))), 4657#(and (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= (+ 2 i_AC) Cn) (<= An (+ i_AB 1))) (or (<= (+ 2 i_AC) An) (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (not (= (select B i_BC) (select C i_BC))) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (not (= (select B i_BC) (select C i_BC))) (not break_AC) (<= Cn (+ i_BC 1)) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)))), 4640#(and (or (<= An i_AB) break_AB (<= (+ 2 i_AC) Cn)) (or (<= (+ 2 i_AC) An) (<= An i_AB) break_AB) (or (<= An i_AB) break_AB (= (select C i_AC) (select A i_AC))) (or (not break_AC) (<= An i_AB) break_AB)), 4652#(and (or (not break_AC) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC)) (or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= (+ 2 i_AC) Cn) (<= An (+ i_AB 1)) (<= Cn i_BC)) (or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (<= (+ 2 i_AC) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= Cn i_BC))), 4659#(and (or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (= (select C i_AC) (select A i_AC))) (or (not break_AC) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or (<= (+ 2 i_AC) An) break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1))) (or break_AB break_BC (not (= (select A i_AB) (select B i_AB))) (<= An (+ i_AB 1)) (<= (+ i_AC 1) i_BC))), 4641#(and (or (<= An i_AB) break_AB break_BC (<= (+ 2 i_AC) Cn) (<= Cn i_BC)) (or (<= (+ 2 i_AC) An) (<= An i_AB) break_AB break_BC (<= Cn i_BC)) (or (<= An i_AB) break_AB break_BC (<= Cn i_BC) (= (select C i_AC) (select A i_AC))) (or (not break_AC) (<= An i_AB) break_AB break_BC (<= Cn i_BC))), 4636#(and (or (not break_AC) break_BC (<= Cn i_BC)) (or break_BC (< i_AC Cn) (<= Cn i_BC)) (or (< i_AC An) break_BC (<= Cn i_BC))), 4635#(or (<= An i_AB) break_AB break_BC (<= Cn i_BC))] [2022-03-15 20:53:20,135 INFO L546 AbstractCegarLoop]: INTERPOLANT automaton has 36 states [2022-03-15 20:53:20,135 INFO L108 FreeRefinementEngine]: Using predicate unifier PredicateUnifier provided by strategy CAMEL [2022-03-15 20:53:20,136 INFO L143 InterpolantAutomaton]: Constructing interpolant automaton starting with 36 interpolants. [2022-03-15 20:53:20,136 INFO L145 InterpolantAutomaton]: CoverageRelationStatistics Valid=409, Invalid=1753, Unknown=0, NotChecked=0, Total=2162 [2022-03-15 20:53:20,136 INFO L87 Difference]: Start difference. First operand 87 states and 246 transitions. Second operand has 36 states, 36 states have (on average 3.1666666666666665) internal successors, (114), 35 states have internal predecessors, (114), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:20,997 INFO L144 Difference]: Subtrahend was deterministic. Have not used determinization. [2022-03-15 20:53:20,997 INFO L93 Difference]: Finished difference Result 122 states and 345 transitions. [2022-03-15 20:53:20,997 INFO L141 InterpolantAutomaton]: Switched to read-only mode: deterministic interpolant automaton has 28 states. [2022-03-15 20:53:20,997 INFO L78 Accepts]: Start accepts. Automaton has has 36 states, 36 states have (on average 3.1666666666666665) internal successors, (114), 35 states have internal predecessors, (114), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) Word has length 16 [2022-03-15 20:53:20,998 INFO L84 Accepts]: Finished accepts. some prefix is accepted. [2022-03-15 20:53:20,998 INFO L225 Difference]: With dead ends: 122 [2022-03-15 20:53:20,998 INFO L226 Difference]: Without dead ends: 108 [2022-03-15 20:53:20,999 INFO L932 BasicCegarLoop]: 0 DeclaredPredicates, 115 GetRequests, 54 SyntacticMatches, 8 SemanticMatches, 53 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 919 ImplicationChecksByTransitivity, 1.7s TimeCoverageRelationStatistics Valid=563, Invalid=2407, Unknown=0, NotChecked=0, Total=2970 [2022-03-15 20:53:21,000 INFO L933 BasicCegarLoop]: 1 mSDtfsCounter, 107 mSDsluCounter, 221 mSDsCounter, 0 mSdLazyCounter, 954 mSolverCounterSat, 56 mSolverCounterUnsat, 0 mSolverCounterUnknown, 0 mSolverCounterNotChecked, 0.4s Time, 0 mProtectedPredicate, 0 mProtectedAction, 107 SdHoareTripleChecker+Valid, 1 SdHoareTripleChecker+Invalid, 1010 SdHoareTripleChecker+Unknown, 0 SdHoareTripleChecker+Unchecked, 0.0s SdHoareTripleChecker+Time, 56 IncrementalHoareTripleChecker+Valid, 954 IncrementalHoareTripleChecker+Invalid, 0 IncrementalHoareTripleChecker+Unknown, 0 IncrementalHoareTripleChecker+Unchecked, 0.5s IncrementalHoareTripleChecker+Time [2022-03-15 20:53:21,000 INFO L934 BasicCegarLoop]: SdHoareTripleChecker [107 Valid, 1 Invalid, 1010 Unknown, 0 Unchecked, 0.0s Time], IncrementalHoareTripleChecker [56 Valid, 954 Invalid, 0 Unknown, 0 Unchecked, 0.5s Time] [2022-03-15 20:53:21,000 INFO L82 GeneralOperation]: Start minimizeSevpa. Operand 108 states. [2022-03-15 20:53:21,003 INFO L88 GeneralOperation]: Finished minimizeSevpa. Reduced states from 108 to 108. [2022-03-15 20:53:21,003 INFO L82 GeneralOperation]: Start removeUnreachable. Operand has 108 states, 107 states have (on average 2.878504672897196) internal successors, (308), 107 states have internal predecessors, (308), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:21,004 INFO L88 GeneralOperation]: Finished removeUnreachable. Reduced from 108 states to 108 states and 308 transitions. [2022-03-15 20:53:21,004 INFO L78 Accepts]: Start accepts. Automaton has 108 states and 308 transitions. Word has length 16 [2022-03-15 20:53:21,004 INFO L84 Accepts]: Finished accepts. word is rejected. [2022-03-15 20:53:21,004 INFO L470 AbstractCegarLoop]: Abstraction has 108 states and 308 transitions. [2022-03-15 20:53:21,004 INFO L471 AbstractCegarLoop]: INTERPOLANT automaton has has 36 states, 36 states have (on average 3.1666666666666665) internal successors, (114), 35 states have internal predecessors, (114), 0 states have call successors, (0), 0 states have call predecessors, (0), 0 states have return successors, (0), 0 states have call predecessors, (0), 0 states have call successors, (0) [2022-03-15 20:53:21,004 INFO L276 IsEmpty]: Start isEmpty. Operand 108 states and 308 transitions. [2022-03-15 20:53:21,005 INFO L282 IsEmpty]: Finished isEmpty. Found accepting run of length 18 [2022-03-15 20:53:21,005 INFO L506 BasicCegarLoop]: Found error trace [2022-03-15 20:53:21,005 INFO L514 BasicCegarLoop]: trace histogram [2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1] [2022-03-15 20:53:21,024 INFO L552 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (10)] Ended with exit code 0 [2022-03-15 20:53:21,215 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 10 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable9 [2022-03-15 20:53:21,216 INFO L402 AbstractCegarLoop]: === Iteration 11 === Targeting ULTIMATE.startErr0ASSERT_VIOLATIONASSERT === [ULTIMATE.startErr0ASSERT_VIOLATIONASSERT, ULTIMATE.startErr0INUSE_VIOLATION, ULTIMATE.startErr1INUSE_VIOLATION, ULTIMATE.startErr2INUSE_VIOLATION] === [2022-03-15 20:53:21,216 INFO L144 PredicateUnifier]: Initialized classic predicate unifier [2022-03-15 20:53:21,216 INFO L85 PathProgramCache]: Analyzing trace with hash -22813584, now seen corresponding path program 6 times [2022-03-15 20:53:21,217 INFO L126 FreeRefinementEngine]: Executing refinement strategy CAMEL [2022-03-15 20:53:21,217 INFO L338 FreeRefinementEngine]: Using trace check IpTcStrategyModuleSmtInterpolCraig [62162985] [2022-03-15 20:53:21,217 INFO L95 rtionOrderModulation]: Keeping assertion order NOT_INCREMENTALLY [2022-03-15 20:53:21,217 INFO L127 SolverBuilder]: Constructing new instance of SMTInterpol with explicit timeout -1 ms and remaining time -1 ms [2022-03-15 20:53:21,233 INFO L136 AnnotateAndAsserter]: Conjunction of SSA is unsat [2022-03-15 20:53:21,771 INFO L134 CoverageAnalysis]: Checked inductivity of 9 backedges. 0 proven. 9 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:21,772 INFO L144 FreeRefinementEngine]: Strategy CAMEL found an infeasible trace [2022-03-15 20:53:21,772 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleSmtInterpolCraig [62162985] [2022-03-15 20:53:21,772 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleSmtInterpolCraig [62162985] provided 0 perfect and 1 imperfect interpolant sequences [2022-03-15 20:53:21,772 INFO L338 FreeRefinementEngine]: Using interpolant generator IpTcStrategyModuleZ3 [874959177] [2022-03-15 20:53:21,772 INFO L93 rtionOrderModulation]: Changing assertion order to MIX_INSIDE_OUTSIDE [2022-03-15 20:53:21,772 INFO L173 SolverBuilder]: Constructing external solver with command: z3 -smt2 -in SMTLIB2_COMPLIANT=true [2022-03-15 20:53:21,772 INFO L189 MonitoredProcess]: No working directory specified, using /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 [2022-03-15 20:53:21,773 INFO L229 MonitoredProcess]: Starting monitored process 11 with /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (exit command is (exit), workingDir is null) [2022-03-15 20:53:21,774 INFO L327 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (11)] Waiting until timeout for monitored process [2022-03-15 20:53:21,803 INFO L228 tOrderPrioritization]: Assert order MIX_INSIDE_OUTSIDE issued 2 check-sat command(s) [2022-03-15 20:53:21,804 INFO L229 tOrderPrioritization]: Conjunction of SSA is unsat [2022-03-15 20:53:21,806 INFO L263 TraceCheckSpWp]: Trace formula consists of 54 conjuncts, 21 conjunts are in the unsatisfiable core [2022-03-15 20:53:21,808 INFO L286 TraceCheckSpWp]: Computing forward predicates... [2022-03-15 20:53:22,726 INFO L134 CoverageAnalysis]: Checked inductivity of 9 backedges. 0 proven. 9 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:22,726 INFO L328 TraceCheckSpWp]: Computing backward predicates... [2022-03-15 20:53:23,619 INFO L353 Elim1Store]: treesize reduction 66, result has 56.3 percent of original size [2022-03-15 20:53:23,619 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 6 select indices, 6 select index equivalence classes, 0 disjoint index pairs (out of 15 index pairs), introduced 6 new quantified variables, introduced 15 case distinctions, treesize of input 197 treesize of output 253 [2022-03-15 20:53:38,636 INFO L353 Elim1Store]: treesize reduction 48, result has 54.3 percent of original size [2022-03-15 20:53:38,637 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 5 select indices, 5 select index equivalence classes, 0 disjoint index pairs (out of 10 index pairs), introduced 5 new quantified variables, introduced 10 case distinctions, treesize of input 599 treesize of output 541 [2022-03-15 20:53:38,646 INFO L173 IndexEqualityManager]: detected equality via solver [2022-03-15 20:53:38,691 INFO L353 Elim1Store]: treesize reduction 38, result has 60.0 percent of original size [2022-03-15 20:53:38,691 INFO L387 Elim1Store]: Elim1 did not use preprocessing eliminated variable of array dimension 1, 0 stores, 5 select indices, 5 select index equivalence classes, 1 disjoint index pairs (out of 10 index pairs), introduced 5 new quantified variables, introduced 9 case distinctions, treesize of input 513 treesize of output 445 [2022-03-15 20:53:46,399 INFO L134 CoverageAnalysis]: Checked inductivity of 9 backedges. 1 proven. 8 refuted. 0 times theorem prover too weak. 0 trivial. 0 not checked. [2022-03-15 20:53:46,400 INFO L165 FreeRefinementEngine]: IpTcStrategyModuleZ3 [874959177] provided 0 perfect and 2 imperfect interpolant sequences [2022-03-15 20:53:46,400 INFO L191 FreeRefinementEngine]: Found 0 perfect and 3 imperfect interpolant sequences. [2022-03-15 20:53:46,400 INFO L204 FreeRefinementEngine]: Number of different interpolants: perfect sequences [] imperfect sequences [8, 8, 8] total 24 [2022-03-15 20:53:46,400 INFO L118 tionRefinementEngine]: Using interpolant automaton builder IpAbStrategyModuleMcr [837028959] [2022-03-15 20:53:46,400 INFO L194 McrAutomatonBuilder]: Constructing automaton for MCR equivalence class. [2022-03-15 20:53:46,402 INFO L249 McrAutomatonBuilder]: Started intersection. [2022-03-15 20:53:46,418 INFO L252 McrAutomatonBuilder]: Finished intersection with 108 states and 242 transitions. [2022-03-15 20:53:46,419 INFO L276 McrAutomatonBuilder]: Constructing interpolant automaton by labelling MCR automaton with interpolants from WpInterpolantProvider [2022-03-15 20:53:47,299 WARN L137 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2022-03-15 20:53:59,080 WARN L137 XnfTransformerHelper]: expecting exponential blowup for input size 6 [2022-03-15 20:54:14,361 WARN L137 XnfTransformerHelper]: expecting exponential blowup for input size 6 Received shutdown request... [2022-03-15 20:54:20,474 WARN L244 SmtUtils]: Removed 2 from assertion stack [2022-03-15 20:54:20,475 INFO L764 garLoopResultBuilder]: Registering result TIMEOUT for location ULTIMATE.startErr0ASSERT_VIOLATIONASSERT (3 of 4 remaining) [2022-03-15 20:54:20,491 INFO L540 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (11)] Forceful destruction successful, exit code 0 [2022-03-15 20:54:20,510 WARN L340 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true (11)] Timeout while monitored process is still running, waiting 1000 ms for graceful end [2022-03-15 20:54:20,510 WARN L340 MonitoredProcess]: [MP /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 SMTLIB2_COMPLIANT=true -memory:2024 -smt2 -in -t:2000 (1)] Timeout while monitored process is still running, waiting 1000 ms for graceful end [2022-03-15 20:54:20,676 WARN L452 AbstractCegarLoop]: Destroyed unattended storables created during the last iteration: 11 /storage/repos/ultimate/releaseScripts/default/UAutomizer-linux/z3 -smt2 -in SMTLIB2_COMPLIANT=true,SelfDestructingSolverStorable10 [2022-03-15 20:54:20,676 WARN L594 AbstractCegarLoop]: Verification canceled: while BasicCegarLoop was analyzing trace of length 18 with TraceHistMax 2,while SimplifyDDAWithTimeout was simplifying term of DAG size 3 for 8ms.. [2022-03-15 20:54:20,677 INFO L764 garLoopResultBuilder]: Registering result TIMEOUT for location ULTIMATE.startErr0INUSE_VIOLATION (2 of 4 remaining) [2022-03-15 20:54:20,677 INFO L764 garLoopResultBuilder]: Registering result TIMEOUT for location ULTIMATE.startErr1INUSE_VIOLATION (1 of 4 remaining) [2022-03-15 20:54:20,678 INFO L764 garLoopResultBuilder]: Registering result TIMEOUT for location ULTIMATE.startErr2INUSE_VIOLATION (0 of 4 remaining) [2022-03-15 20:54:20,679 INFO L732 BasicCegarLoop]: Path program histogram: [6, 1, 1, 1, 1, 1] [2022-03-15 20:54:20,684 INFO L230 ceAbstractionStarter]: Analysis of concurrent program completed with 1 thread instances [2022-03-15 20:54:20,684 INFO L180 ceAbstractionStarter]: Computing trace abstraction results [2022-03-15 20:54:20,686 INFO L202 PluginConnector]: Adding new model array-eq-trans.wvr.bpl de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction CFG 15.03 08:54:20 BasicIcfg [2022-03-15 20:54:20,686 INFO L132 PluginConnector]: ------------------------ END TraceAbstraction---------------------------- [2022-03-15 20:54:20,686 INFO L158 Benchmark]: Toolchain (without parser) took 739065.04ms. Allocated memory was 188.7MB in the beginning and 714.1MB in the end (delta: 525.3MB). Free memory was 148.1MB in the beginning and 433.8MB in the end (delta: -285.8MB). Peak memory consumption was 441.9MB. Max. memory is 8.0GB. [2022-03-15 20:54:20,687 INFO L158 Benchmark]: Boogie PL CUP Parser took 0.13ms. Allocated memory is still 188.7MB. Free memory was 149.3MB in the beginning and 149.2MB in the end (delta: 125.9kB). There was no memory consumed. Max. memory is 8.0GB. [2022-03-15 20:54:20,687 INFO L158 Benchmark]: Boogie Procedure Inliner took 25.50ms. Allocated memory is still 188.7MB. Free memory was 148.1MB in the beginning and 146.4MB in the end (delta: 1.6MB). Peak memory consumption was 3.1MB. Max. memory is 8.0GB. [2022-03-15 20:54:20,687 INFO L158 Benchmark]: Boogie Preprocessor took 31.08ms. Allocated memory is still 188.7MB. Free memory was 146.4MB in the beginning and 145.5MB in the end (delta: 918.4kB). Peak memory consumption was 1.0MB. Max. memory is 8.0GB. [2022-03-15 20:54:20,690 INFO L158 Benchmark]: RCFGBuilder took 244.59ms. Allocated memory is still 188.7MB. Free memory was 145.4MB in the beginning and 135.9MB in the end (delta: 9.5MB). Peak memory consumption was 9.4MB. Max. memory is 8.0GB. [2022-03-15 20:54:20,690 INFO L158 Benchmark]: TraceAbstraction took 738758.20ms. Allocated memory was 188.7MB in the beginning and 714.1MB in the end (delta: 525.3MB). Free memory was 135.4MB in the beginning and 433.8MB in the end (delta: -298.4MB). Peak memory consumption was 428.3MB. Max. memory is 8.0GB. [2022-03-15 20:54:20,693 INFO L339 ainManager$Toolchain]: ####################### End [Toolchain 1] ####################### --- Results --- * Results from de.uni_freiburg.informatik.ultimate.core: - StatisticsResult: Toolchain Benchmarks Benchmark results are: * Boogie PL CUP Parser took 0.13ms. Allocated memory is still 188.7MB. Free memory was 149.3MB in the beginning and 149.2MB in the end (delta: 125.9kB). There was no memory consumed. Max. memory is 8.0GB. * Boogie Procedure Inliner took 25.50ms. Allocated memory is still 188.7MB. Free memory was 148.1MB in the beginning and 146.4MB in the end (delta: 1.6MB). Peak memory consumption was 3.1MB. Max. memory is 8.0GB. * Boogie Preprocessor took 31.08ms. Allocated memory is still 188.7MB. Free memory was 146.4MB in the beginning and 145.5MB in the end (delta: 918.4kB). Peak memory consumption was 1.0MB. Max. memory is 8.0GB. * RCFGBuilder took 244.59ms. Allocated memory is still 188.7MB. Free memory was 145.4MB in the beginning and 135.9MB in the end (delta: 9.5MB). Peak memory consumption was 9.4MB. Max. memory is 8.0GB. * TraceAbstraction took 738758.20ms. Allocated memory was 188.7MB in the beginning and 714.1MB in the end (delta: 525.3MB). Free memory was 135.4MB in the beginning and 433.8MB in the end (delta: -298.4MB). Peak memory consumption was 428.3MB. Max. memory is 8.0GB. * Results from de.uni_freiburg.informatik.ultimate.plugins.generator.traceabstraction: - StatisticsResult: PetriNetLargeBlockEncoding benchmarks Lipton Reduction Statistics: ReductionTime: 0.7s, 39 PlacesBefore, 25 PlacesAfterwards, 35 TransitionsBefore, 18 TransitionsAfterwards, 378 CoEnabledTransitionPairs, 2 FixpointIterations, 3 TrivialSequentialCompositions, 14 ConcurrentSequentialCompositions, 0 TrivialYvCompositions, 0 ConcurrentYvCompositions, 3 ChoiceCompositions, 20 TotalNumberOfCompositions, 262 MoverChecksTotal, Independence Relation Statistics: CachedIndependenceRelation.Independence Queries: [ total: 262, positive: 262, positive conditional: 0, positive unconditional: 262, negative: 0, negative conditional: 0, negative unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , CachedIndependenceRelation.Statistics on underlying relation: SyntacticIndependenceRelation.Independence Queries: [ total: 176, positive: 176, positive conditional: 0, positive unconditional: 176, negative: 0, negative conditional: 0, negative unconditional: 0, unknown: 0, unknown conditional: 0, unknown unconditional: 0] , Cache Queries: [ total: 262, positive: 86, positive conditional: 0, positive unconditional: 86, negative: 0, negative conditional: 0, negative unconditional: 0, unknown: 176, unknown conditional: 0, unknown unconditional: 176] , Statistics on independence cache: Total cache size (in pairs): 15, Positive cache size: 15, Positive conditional cache size: 0, Positive unconditional cache size: 15, Negative cache size: 0, Negative conditional cache size: 0, Negative unconditional cache size: 0 - StatisticsResult: ErrorAutomatonStatistics NumberErrorTraces: 0, NumberStatementsAllTraces: 0, NumberRelevantStatements: 0, 0.0s ErrorAutomatonConstructionTimeTotal, 0.0s FaulLocalizationTime, NumberStatementsFirstTrace: -1, TraceLengthAvg: 0, 0.0s ErrorAutomatonConstructionTimeAvg, 0.0s ErrorAutomatonDifferenceTimeAvg, 0.0s ErrorAutomatonDifferenceTimeTotal, NumberOfNoEnhancement: 0, NumberOfFiniteEnhancement: 0, NumberOfInfiniteEnhancement: 0 - TimeoutResultAtElement [Line: 78]: Timeout (TraceAbstraction) Unable to prove that assertion always holds Cancelled while BasicCegarLoop was analyzing trace of length 18 with TraceHistMax 2,while SimplifyDDAWithTimeout was simplifying term of DAG size 3 for 8ms.. - TimeoutResultAtElement [Line: 72]: Timeout (TraceAbstraction) Unable to prove that petrification did provide enough thread instances (tool internal message, not intended for end users) Cancelled while BasicCegarLoop was analyzing trace of length 18 with TraceHistMax 2,while SimplifyDDAWithTimeout was simplifying term of DAG size 3 for 8ms.. - TimeoutResultAtElement [Line: 71]: Timeout (TraceAbstraction) Unable to prove that petrification did provide enough thread instances (tool internal message, not intended for end users) Cancelled while BasicCegarLoop was analyzing trace of length 18 with TraceHistMax 2,while SimplifyDDAWithTimeout was simplifying term of DAG size 3 for 8ms.. - TimeoutResultAtElement [Line: 71]: Timeout (TraceAbstraction) Unable to prove that petrification did provide enough thread instances (tool internal message, not intended for end users) Cancelled while BasicCegarLoop was analyzing trace of length 18 with TraceHistMax 2,while SimplifyDDAWithTimeout was simplifying term of DAG size 3 for 8ms.. - StatisticsResult: Ultimate Automizer benchmark data with 1 thread instances CFG has 7 procedures, 51 locations, 4 error locations. Started 1 CEGAR loops. OverallTime: 738.6s, OverallIterations: 11, TraceHistogramMax: 2, PathProgramHistogramMax: 6, EmptinessCheckTime: 0.0s, AutomataDifference: 286.8s, DeadEndRemovalTime: 0.0s, HoareAnnotationTime: 0.0s, InitialAbstractionConstructionTime: 0.7s, PartialOrderReductionTime: 0.0s, HoareTripleCheckerStatistics: 0 mSolverCounterUnknown, 1250 SdHoareTripleChecker+Valid, 6.5s IncrementalHoareTripleChecker+Time, 0 mSdLazyCounter, 1250 mSDsluCounter, 10 SdHoareTripleChecker+Invalid, 5.7s Time, 0 mProtectedAction, 0 SdHoareTripleChecker+Unchecked, 0 IncrementalHoareTripleChecker+Unchecked, 1518 mSDsCounter, 472 IncrementalHoareTripleChecker+Valid, 0 mProtectedPredicate, 6151 IncrementalHoareTripleChecker+Invalid, 6623 SdHoareTripleChecker+Unknown, 0 mSolverCounterNotChecked, 472 mSolverCounterUnsat, 10 mSDtfsCounter, 6151 mSolverCounterSat, 0.0s SdHoareTripleChecker+Time, 0 IncrementalHoareTripleChecker+Unknown, PredicateUnifierStatistics: 0 DeclaredPredicates, 815 GetRequests, 323 SyntacticMatches, 89 SemanticMatches, 403 ConstructedPredicates, 0 IntricatePredicates, 0 DeprecatedPredicates, 8683 ImplicationChecksByTransitivity, 302.0s Time, 0.0s BasicInterpolantAutomatonTime, BiggestAbstraction: size=140occurred in iteration=7, InterpolantAutomatonStates: 251, traceCheckStatistics: No data available, InterpolantConsolidationStatistics: No data available, PathInvariantsStatistics: No data available, 0/0 InterpolantCoveringCapability, TotalInterpolationStatistics: No data available, 0.0s DumpTime, AutomataMinimizationStatistics: 0.1s AutomataMinimizationTime, 10 MinimizatonAttempts, 805 StatesRemovedByMinimization, 8 NontrivialMinimizations, HoareAnnotationStatistics: No data available, RefinementEngineStatistics: TRACE_CHECK: 0.0s SsaConstructionTime, 0.2s SatisfiabilityAnalysisTime, 14.2s InterpolantComputationTime, 261 NumberOfCodeBlocks, 261 NumberOfCodeBlocksAsserted, 22 NumberOfCheckSat, 358 ConstructedInterpolants, 0 QuantifiedInterpolants, 12168 SizeOfPredicates, 98 NumberOfNonLiveVariables, 431 ConjunctsInSsa, 115 ConjunctsInUnsatCore, 28 InterpolantComputations, 2 PerfectInterpolantSequences, 10/93 InterpolantCoveringCapability, INVARIANT_SYNTHESIS: No data available, INTERPOLANT_CONSOLIDATION: No data available, ABSTRACT_INTERPRETATION: No data available, PDR: No data available, ACCELERATED_INTERPOLATION: No data available, SIFA: No data available, ReuseStatistics: No data available RESULT: Ultimate could not prove your program: Timeout Completed graceful shutdown