Package statechum.analysis.learning.DrawGraphs

Examples of statechum.analysis.learning.DrawGraphs.ScatterPlot

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    final int traceQuantityToUse = traceQuantity;
    SquareBagPlot gr_StructuralDiff = new SquareBagPlot("Structural score, EDSM,>=2","Structural Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_structuraldiff.pdf"),0,1,true);
    SquareBagPlot gr_BCR = new SquareBagPlot("BCR, EDSM,>=2","BCR, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr.pdf"),0.5,1,true);
    RBagPlot gr_BCR_singletons = new RBagPlot("%% states identified by singletons","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_singletons.pdf"));
    RBagPlot gr_BCR_states = new RBagPlot("number of states in reference","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_numberofstates.pdf"));
    ScatterPlot gr_ImprovementPerState = new ScatterPlot("State number", "BCR, improvement",new File(branch+"_"+(traceQuantityToUse/2)+"_bcr_statenumber.pdf"));
    for(final boolean onlyPositives:new boolean[]{true})
      for(final double alphabetMultiplier:new double[]{alphabetMultiplierMax})
      {
            final int totalTaskNumber = traceQuantityToUse;
            try
            {
              int numberOfTasks = 0;
              for(int states=minStateNumber;states < minStateNumber+rangeOfStateNumbers;states+=stateNumberIncrement)
                for(int sample=0;sample<samplesPerFSM;++sample)
                {
                  LearnerRunner learnerRunner = new LearnerRunner(states,sample,totalTaskNumber+numberOfTasks,traceQuantityToUse, config, converter);
                  learnerRunner.setOnlyUsePositives(onlyPositives);
                  learnerRunner.setAlphabetMultiplier(alphabetMultiplier);
                  learnerRunner.setTraceLengthMultiplier(traceLengthMultiplierMax);learnerRunner.setChunkLen(chunkSize);
                  learnerRunner.setSelectionID(branch+"_states"+states+"_sample"+sample);
                  runner.submit(learnerRunner);
                  ++numberOfTasks;
                }
              ProgressIndicator progress = new ProgressIndicator(new Date()+" evaluating "+numberOfTasks+" tasks for learning whole graphs", numberOfTasks);
              for(int count=0;count < numberOfTasks;++count)
              {
                ThreadResult result = runner.take().get();// this will throw an exception if any of the tasks failed.
                for(SampleData sample:result.samples)
                  gr_StructuralDiff.add(sample.referenceLearner.differenceStructural.getValue(),sample.actualLearner.differenceStructural.getValue());
             
                for(SampleData sample:result.samples)
                {
                  gr_BCR.add(sample.referenceLearner.differenceBCR.getValue(),sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_singletons.add((double)sample.fractionOfStatesIdentifiedBySingletons,sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_states.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue());
                  if (sample.referenceLearner.differenceBCR.getValue() > 0)
                  gr_ImprovementPerState.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue()/sample.referenceLearner.differenceBCR.getValue());
                }
                progress.next();
              }
              gr_StructuralDiff.drawInteractive(gr);gr_BCR.drawInteractive(gr);gr_BCR_singletons.drawInteractive(gr);gr_BCR_states.drawInteractive(gr);gr_ImprovementPerState.drawInteractive(gr);
            }
            catch(Exception ex)
            {
              IllegalArgumentException e = new IllegalArgumentException("failed to compute, the problem is: "+ex);e.initCause(ex);
              if (executorService != null) { executorService.shutdownNow();executorService = null; }
              throw e;
            }
      }
      if (gr_StructuralDiff != null) gr_StructuralDiff.drawPdf(gr);
      if (gr_BCR != null) gr_BCR.drawPdf(gr);
      if (gr_BCR_singletons != null) gr_BCR_singletons.drawPdf(gr);
      if (gr_BCR_states != null) gr_BCR_states.drawPdf(gr);
      if (gr_ImprovementPerState != null) gr_ImprovementPerState.drawPdf(gr);

    final RBoxPlot<String> gr_BCRImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, BCR",new File(branch+"BCR_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_BCRForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","BCR",new File(branch+"BCR_absolute_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, structural",new File(branch+"structural_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","structural",new File(branch+"structural_absolute_vs_alphabet.pdf"));
View Full Code Here
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    final int traceQuantityToUse = traceQuantity;
    SquareBagPlot gr_StructuralDiff = new SquareBagPlot("Structural score, EDSM,>=2","Structural Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_structuraldiff.pdf"),0,1,true);
    SquareBagPlot gr_BCR = new SquareBagPlot("BCR, EDSM,>=2","BCR, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr.pdf"),0.5,1,true);
    RBagPlot gr_BCR_singletons = new RBagPlot("%% states identified by singletons","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_singletons.pdf"));
    RBagPlot gr_BCR_states = new RBagPlot("number of states in reference","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_numberofstates.pdf"));
    ScatterPlot gr_ImprovementPerState = new ScatterPlot("State number", "BCR, improvement",new File(branch+"_"+(traceQuantityToUse/2)+"_bcr_statenumber.pdf"));
    for(final boolean onlyPositives:new boolean[]{true})
      for(final double alphabetMultiplier:new double[]{alphabetMultiplierMax})
      {
            final int totalTaskNumber = traceQuantityToUse;
            try
            {
              int numberOfTasks = 0;
              for(int states=minStateNumber;states < minStateNumber+rangeOfStateNumbers;states+=stateNumberIncrement)
                for(int sample=0;sample<samplesPerFSM;++sample)
                {
                  LearnerRunner learnerRunner = new LearnerRunner(states,sample,totalTaskNumber+numberOfTasks,traceQuantityToUse, config, converter);
                  learnerRunner.setOnlyUsePositives(onlyPositives);
                  learnerRunner.setAlphabetMultiplier(alphabetMultiplier);
                  learnerRunner.setTraceLengthMultiplier(traceLengthMultiplierMax);learnerRunner.setChunkLen(chunkSize);
                  learnerRunner.setSelectionID(branch+"_states"+states+"_sample"+sample);
                  runner.submit(learnerRunner);
                  ++numberOfTasks;
                }
              ProgressIndicator progress = new ProgressIndicator(new Date()+" evaluating "+numberOfTasks+" tasks for learning whole graphs", numberOfTasks);
              for(int count=0;count < numberOfTasks;++count)
              {
                ThreadResult result = runner.take().get();// this will throw an exception if any of the tasks failed.
                for(SampleData sample:result.samples)
                  gr_StructuralDiff.add(sample.referenceLearner.differenceStructural.getValue(),sample.actualLearner.differenceStructural.getValue());
             
                for(SampleData sample:result.samples)
                {
                  gr_BCR.add(sample.referenceLearner.differenceBCR.getValue(),sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_singletons.add((double)sample.fractionOfStatesIdentifiedBySingletons,sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_states.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue());
                  if (sample.referenceLearner.differenceBCR.getValue() > 0)
                  gr_ImprovementPerState.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue()/sample.referenceLearner.differenceBCR.getValue());
                }
                progress.next();
              }
              gr_StructuralDiff.drawInteractive(gr);gr_BCR.drawInteractive(gr);gr_BCR_singletons.drawInteractive(gr);gr_BCR_states.drawInteractive(gr);gr_ImprovementPerState.drawInteractive(gr);
            }
            catch(Exception ex)
            {
              IllegalArgumentException e = new IllegalArgumentException("failed to compute, the problem is: "+ex);e.initCause(ex);
              if (executorService != null) { executorService.shutdownNow();executorService = null; }
              throw e;
            }
      }
      if (gr_StructuralDiff != null) gr_StructuralDiff.drawPdf(gr);
      if (gr_BCR != null) gr_BCR.drawPdf(gr);
      if (gr_BCR_singletons != null) gr_BCR_singletons.drawPdf(gr);
      if (gr_BCR_states != null) gr_BCR_states.drawPdf(gr);
      if (gr_ImprovementPerState != null) gr_ImprovementPerState.drawPdf(gr);

    final RBoxPlot<String> gr_BCRImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, BCR",new File(branch+"BCR_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_BCRForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","BCR",new File(branch+"BCR_absolute_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, structural",new File(branch+"structural_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","structural",new File(branch+"structural_absolute_vs_alphabet.pdf"));
View Full Code Here
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    final int traceQuantityToUse = traceQuantity;
    SquareBagPlot gr_StructuralDiff = new SquareBagPlot("Structural score, EDSM,>=2","Structural Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_structuraldiff.pdf"),0,1,true);
    SquareBagPlot gr_BCR = new SquareBagPlot("BCR, EDSM,>=2","BCR, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr.pdf"),0.5,1,true);
    RBagPlot gr_BCR_singletons = new RBagPlot("%% states identified by singletons","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_singletons.pdf"));
    RBagPlot gr_BCR_states = new RBagPlot("number of states in reference","BCR Score, EDSM-Markov learner",new File(branch+"_"+(traceQuantityToUse/2)+"_trace_bcr_numberofstates.pdf"));
    ScatterPlot gr_ImprovementPerState = new ScatterPlot("State number", "BCR, improvement",new File(branch+"_"+(traceQuantityToUse/2)+"_bcr_statenumber.pdf"));
    for(final boolean onlyPositives:new boolean[]{true})
      for(final double alphabetMultiplier:new double[]{alphabetMultiplierMax})
      {
            final int totalTaskNumber = traceQuantityToUse;
            try
            {
              int numberOfTasks = 0;
              for(int states=minStateNumber;states < minStateNumber+rangeOfStateNumbers;states+=stateNumberIncrement)
                for(int sample=0;sample<samplesPerFSM;++sample)
                {
                  LearnerRunner learnerRunner = new LearnerRunner(states,sample,totalTaskNumber+numberOfTasks,traceQuantityToUse, config, converter);
                  learnerRunner.setOnlyUsePositives(onlyPositives);
                  learnerRunner.setAlphabetMultiplier(alphabetMultiplier);
                  learnerRunner.setTraceLengthMultiplier(traceLengthMultiplierMax);learnerRunner.setChunkLen(chunkSize);
                  learnerRunner.setSelectionID(branch+"_states"+states+"_sample"+sample);
                  runner.submit(learnerRunner);
                  ++numberOfTasks;
                }
              ProgressIndicator progress = new ProgressIndicator(new Date()+" evaluating "+numberOfTasks+" tasks for learning whole graphs", numberOfTasks);
              for(int count=0;count < numberOfTasks;++count)
              {
                ThreadResult result = runner.take().get();// this will throw an exception if any of the tasks failed.
                for(SampleData sample:result.samples)
                  gr_StructuralDiff.add(sample.referenceLearner.differenceStructural.getValue(),sample.actualLearner.differenceStructural.getValue());
             
                for(SampleData sample:result.samples)
                {
                  gr_BCR.add(sample.referenceLearner.differenceBCR.getValue(),sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_singletons.add((double)sample.fractionOfStatesIdentifiedBySingletons,sample.actualLearner.differenceBCR.getValue());
                  gr_BCR_states.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue());
                  if (sample.referenceLearner.differenceBCR.getValue() > 0)
                  gr_ImprovementPerState.add((double)sample.stateNumber,sample.actualLearner.differenceBCR.getValue()/sample.referenceLearner.differenceBCR.getValue());
                }
                progress.next();
              }
              gr_StructuralDiff.drawInteractive(gr);gr_BCR.drawInteractive(gr);gr_BCR_singletons.drawInteractive(gr);gr_BCR_states.drawInteractive(gr);gr_ImprovementPerState.drawInteractive(gr);
            }
            catch(Exception ex)
            {
              IllegalArgumentException e = new IllegalArgumentException("failed to compute, the problem is: "+ex);e.initCause(ex);
              if (executorService != null) { executorService.shutdownNow();executorService = null; }
              throw e;
            }
      }
      if (gr_StructuralDiff != null) gr_StructuralDiff.drawPdf(gr);
      if (gr_BCR != null) gr_BCR.drawPdf(gr);
      if (gr_BCR_singletons != null) gr_BCR_singletons.drawPdf(gr);
      if (gr_BCR_states != null) gr_BCR_states.drawPdf(gr);
      if (gr_ImprovementPerState != null) gr_ImprovementPerState.drawPdf(gr);

    final RBoxPlot<String> gr_BCRImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, BCR",new File(branch+"BCR_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_BCRForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","BCR",new File(branch+"BCR_absolute_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralImprovementForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","improvement, structural",new File(branch+"structural_vs_alphabet.pdf"));
    final RBoxPlot<String> gr_StructuralForDifferentAlphabetSize = new RBoxPlot<String>("alphabet multiplier","structural",new File(branch+"structural_absolute_vs_alphabet.pdf"));
View Full Code Here
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Related Classes of statechum.analysis.learning.DrawGraphs.ScatterPlot

  • statechum.analysis.learning.experiments.PairSelection.Cav2014
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