Пример #1
0
/**
 * Demonstration of a box-and-whisker chart using a {@link CategoryPlot}.
 *
 * @author David Browning
 */
public class RoundNumberGlobal extends ApplicationFrame {

  private static String experimentsDir = ".";
  private static String[] aMode;

  /** Access to logging facilities. */
  private static final LogContext LOGGER = Log.createContext(RoundNumberGlobal.class);

  /**
   * Creates a new demo.
   *
   * @param title the frame title.
   */
  public RoundNumberGlobal(final String title, ArrayList<Double> pf) {

    super(title);

    final BoxAndWhiskerCategoryDataset dataset = createSampleDataset(pf);

    final CategoryAxis xAxis = new CategoryAxis("");
    // final NumberAxis yAxis = new NumberAxis("Round number");
    final NumberAxis yAxis = new NumberAxis("");
    yAxis.setAutoRangeIncludesZero(false);
    final BoxAndWhiskerRenderer renderer = new BoxAndWhiskerRenderer();
    renderer.setFillBox(false);
    renderer.setToolTipGenerator(new BoxAndWhiskerToolTipGenerator());
    final CategoryPlot plot = new CategoryPlot(dataset, xAxis, yAxis, renderer);

    Font font = new Font("Dialog", Font.PLAIN, 16);
    xAxis.setTickLabelFont(font);
    yAxis.setTickLabelFont(font);
    yAxis.setLabelFont(font);

    final JFreeChart chart =
        new JFreeChart(
            "Round Number" + getTitle(pf), new Font("SansSerif", Font.BOLD, 18), plot, true);

    final ChartPanel chartPanel = new ChartPanel(chart);
    chartPanel.setPreferredSize(new java.awt.Dimension(650, 370));
    setContentPane(chartPanel);

    TextTitle legendText = null;
    if (pf.size() == 1) {
      legendText = new TextTitle("Population Size");
    } else {
      legendText = new TextTitle("Population Size - Probability of Failure");
    }

    legendText.setFont(font);
    legendText.setPosition(RectangleEdge.BOTTOM);
    chart.addSubtitle(legendText);
    chart.getLegend().setItemFont(font);

    FileOutputStream output;
    try {
      output = new FileOutputStream("roundGlobalNumber" + pf + ".jpg");
      ChartUtilities.writeChartAsJPEG(output, 1.0f, chart, 400, 400, null);
    } catch (FileNotFoundException ex) {
      Logger.getLogger(RoundNumberGlobal.class.getName()).log(Level.SEVERE, null, ex);
    } catch (IOException ex) {
      Logger.getLogger(RoundNumberGlobal.class.getName()).log(Level.SEVERE, null, ex);
    }
  }

  /**
   * Creates a sample dataset.
   *
   * @return A sample dataset.
   */
  private BoxAndWhiskerCategoryDataset createSampleDataset(ArrayList<Double> Pf) {

    final int seriesCount = 5;
    final int categoryCount = 4;
    final int entityCount = 22;
    // String sDirectorio = "experiments\\2015-10-30-mazeoff";
    File f = new File(experimentsDir);
    String extension;
    File[] files = f.listFiles();
    Hashtable<String, String> Pop = new Hashtable<>();
    PrintWriter escribir;
    Scanner sc = null;
    ArrayList<Integer> aPops = new ArrayList<>();
    ArrayList<Double> aPf = new ArrayList<>();
    ArrayList<String> aTech = new ArrayList<>();

    Hashtable<String, List> info = new Hashtable();

    // String[] aMode = {"levywalk", "lwphevap", "hybrid", "hybrid3", "hybrid4"};
    for (String mode : aMode) {
      info.put(mode, new ArrayList());
    }

    final DefaultBoxAndWhiskerCategoryDataset dataset = new DefaultBoxAndWhiskerCategoryDataset();

    for (File file : files) {
      extension = "";
      int i = file.getName().lastIndexOf('.');
      int p = Math.max(file.getName().lastIndexOf('/'), file.getName().lastIndexOf('\\'));
      if (i > p) {
        extension = file.getName().substring(i + 1);
      }

      // System.out.println(file.getName() + "extension" + extension);
      if (file.isFile() && extension.equals("csv") && file.getName().startsWith("dataCollected")) {
        System.out.println(file.getName());
        System.out.println("get: " + file.getName());
        String[] filenamep = file.getName().split(Pattern.quote("+"));

        System.out.println("file" + filenamep[8]);

        int popsize = Integer.valueOf(filenamep[3]);
        double pf = Double.valueOf(filenamep[5]);
        String mode = filenamep[7];

        int maxIter = -1;
        // if (!filenamep[8].isEmpty()) {
        maxIter = Integer.valueOf(filenamep[9]);
        // }

        System.out.println("psize:" + popsize);
        System.out.println("pf:" + pf);
        System.out.println("mode:" + mode);
        System.out.println("maxIter:" + maxIter);

        // String[] aMode = {"random", "levywalk", "sandc", "sandclw"};
        // String[] aMode = {"levywalk", "lwphevap", "hybrid", "hybrid3", "hybrid4", "sequential"};
        // String[] aMode = {"levywalk", "lwphevap", "hybrid", "sequential"};

        if (
        /*Pf == pf && */ isInMode(aMode, mode)) {
          final List list = new ArrayList();
          try {
            sc = new Scanner(file);

          } catch (FileNotFoundException ex) {
            Logger.getLogger(DataCollectedLatexConsolidatorSASOMessagesSend1.class.getName())
                .log(Level.SEVERE, null, ex);
          }
          int roundNumber = 0;
          double globalInfoCollected = 0;

          String[] data = null;
          while (sc.hasNext()) {
            String line = sc.nextLine();
            data = line.split(",");
            // System.out.println("data");
            roundNumber = Integer.valueOf(data[0]);
            globalInfoCollected = Double.valueOf(data[4]);

            if (globalInfoCollected >= 90 && Pf.contains(pf)) {
              info.get(mode).add(roundNumber);
              break;
            }
          }

          LOGGER.debug("Adding series " + i);
          LOGGER.debug(list.toString());
          if (Pf.contains(pf)) {
            /*pf == 1.0E-4 || pf == 3.0E-4*/
            if (Pf.size() == 1) {
              dataset.add(list, popsize, getTechniqueName(mode));
            } else {
              dataset.add(list, String.valueOf(popsize) + "-" + pf, getTechniqueName(mode));
            }
          }
        }
      }
    }

    for (String key : info.keySet()) {
      System.out.println(key + ":" + info.get(key).size() / 30 * 100.0);
      dataset.add(info.get(key), 10, getTechniqueName(key));
    }

    return dataset;
  }

  // ****************************************************************************
  // * JFREECHART DEVELOPER GUIDE                                               *
  // * The JFreeChart Developer Guide, written by David Gilbert, is available   *
  // * to purchase from Object Refinery Limited:                                *
  // *                                                                          *
  // * http://www.object-refinery.com/jfreechart/guide.html                     *
  // *                                                                          *
  // * Sales are used to provide funding for the JFreeChart project - please    *
  // * support us so that we can continue developing free software.             *
  // ****************************************************************************
  /**
   * For testing from the command line.
   *
   * @param args ignored.
   */
  public static void main(final String[] args) {
    if (args.length > 0) {
      experimentsDir = args[0];
    }

    aMode = new String[args.length - 1];

    for (int i = 1; i < args.length; i++) {
      aMode[i - 1] = args[i];
    }

    //        double pf = Double.valueOf(args[0]);
    //       System.out.println("pf:" + args[0]);
    /* SASO Paper */
    /*
    double pf = 0;
    ArrayList<Double> pf0 = new ArrayList<>();
    ArrayList<Double> pfg1 = new ArrayList<>();
    ArrayList<Double> pfg2 = new ArrayList<>();
    ArrayList<Double> pfg3 = new ArrayList<>();

    pf0.add(0.0);
    pfg1.add(1.0E-4);
    pfg1.add(3.0E-4);

    pfg2.add(5.0E-4);
    pfg2.add(7.0E-4);

    pfg3.add(9.0E-4);
    //pfg3.add(1.0E-3);

    //Log.getInstance().addTarget(new PrintStreamLogTarget(System.out));
    final RoundNumber1 demo = new RoundNumber1("Round Number", pf0);
    final RoundNumber1 demo1 = new RoundNumber1("Round Number", pfg1);
    final RoundNumber1 demo2 = new RoundNumber1("Round Number", pfg2);
    final RoundNumber1 demo3 = new RoundNumber1("Round Number", pfg3);
    //demo.pack();
    //RefineryUtilities.centerFrameOnScreen(demo);
    //demo.setVisible(true);
    */
    double pf = 0;
    ArrayList<Double> pf0 = new ArrayList<>();
    ArrayList<Double> pf1 = new ArrayList<>();
    ArrayList<Double> pf3 = new ArrayList<>();
    ArrayList<Double> pf5 = new ArrayList<>();
    ArrayList<Double> pf7 = new ArrayList<>();
    ArrayList<Double> pf9 = new ArrayList<>();
    ArrayList<Double> pf01 = new ArrayList<>();

    pf0.add(0.0);
    pf1.add(1.0E-4);
    pf3.add(3.0E-4);
    pf5.add(5.0E-4);
    pf7.add(7.0E-4);
    pf9.add(9.0E-4);
    pf01.add(1.0E-3);

    // pfg3.add(1.0E-3);
    // Log.getInstance().addTarget(new PrintStreamLogTarget(System.out));
    final RoundNumberGlobal demo = new RoundNumberGlobal("Round Number", pf0);
    final RoundNumberGlobal demo1 = new RoundNumberGlobal("Round Number", pf1);
    final RoundNumberGlobal demo2 = new RoundNumberGlobal("Round Number", pf3);
    final RoundNumberGlobal demo3 = new RoundNumberGlobal("Round Number", pf5);
    final RoundNumberGlobal demo4 = new RoundNumberGlobal("Round Number", pf7);
    final RoundNumberGlobal demo5 = new RoundNumberGlobal("Round Number", pf9);
    final RoundNumberGlobal demo6 = new RoundNumberGlobal("Round Number", pf01);
    // demo.pack();
    // RefineryUtilities.centerFrameOnScreen(demo);
    // demo.setVisible(true);
  }

  private boolean isInMode(String[] aMode, String mode) {
    for (String temp : aMode) {
      if (temp.equals(mode)) {
        return true;
      }
    }
    return false;
  }

  private static String getTechniqueName(String mode) {
    switch (mode) {
      case "sandclw":
        return "SandC with Lw";
      case "lwsandc2":
        return "Lw and C";
      case "lwsandc":
        return "Lw and C-Lw";
      case "lwphevap2":
        return "C and Evap";
      case "lwphevap":
        return "C-Lw and Evap";
      default:
        return mode;
    }
  }

  private String getTitle(ArrayList<Double> pf) {
    String s = " with a pf=";

    for (int i = 0; i < pf.size(); i++) {
      s += pf.get(i);
      if (i != pf.size() - 1) {
        s += " and pf=";
      }
    }
    return s;
  }
}
Пример #2
0
/**
 * Demonstration of a box-and-whisker chart using a {@link CategoryPlot}.
 *
 * @author David Browning
 */
public class MessagesSent1 extends ApplicationFrame {

  private static String experimentsDir = ".";
  private static String mazeMode = "mazeon";
  private static String[] aMode;
  /** Access to logging facilities. */
  private static final LogContext LOGGER = Log.createContext(MessagesSent1.class);

  /**
   * Creates a new demo.
   *
   * @param title the frame title.
   */
  public MessagesSent1(final String title, ArrayList<Double> pf) {

    super(title);

    final BoxAndWhiskerCategoryDataset dataset = createSampleDataset(pf);

    final CategoryAxis xAxis = new CategoryAxis("");
    // final NumberAxis yAxis = new NumberAxis("Messages Sent");
    final NumberAxis yAxis = new NumberAxis("");
    yAxis.setAutoRangeIncludesZero(false);
    final BoxAndWhiskerRenderer renderer = new BoxAndWhiskerRenderer();
    renderer.setFillBox(false);
    renderer.setToolTipGenerator(new BoxAndWhiskerToolTipGenerator());
    final CategoryPlot plot = new CategoryPlot(dataset, xAxis, yAxis, renderer);

    Font font = new Font("Dialog", Font.PLAIN, 16);
    xAxis.setTickLabelFont(font);
    yAxis.setTickLabelFont(font);
    yAxis.setLabelFont(font);

    final JFreeChart chart =
        new JFreeChart(
            "Messages Sent " + getTitle(pf), new Font("SansSerif", Font.BOLD, 18), plot, true);

    final ChartPanel chartPanel = new ChartPanel(chart);
    chartPanel.setPreferredSize(new java.awt.Dimension(650, 370));
    setContentPane(chartPanel);
    TextTitle legendText = null;
    if (pf.size() == 1) {
      legendText = new TextTitle("Population Size");
    } else {
      legendText = new TextTitle("Population Size - Probability of Failure");
    }
    legendText.setFont(font);
    legendText.setPosition(RectangleEdge.BOTTOM);
    chart.addSubtitle(legendText);
    chart.getLegend().setItemFont(font);

    FileOutputStream output;
    try {
      output = new FileOutputStream("messagesnumber1" + pf + mazeMode + ".jpg");
      ChartUtilities.writeChartAsJPEG(output, 1.0f, chart, 400, 400, null);
    } catch (FileNotFoundException ex) {
      Logger.getLogger(MessagesSent1.class.getName()).log(Level.SEVERE, null, ex);
    } catch (IOException ex) {
      Logger.getLogger(MessagesSent1.class.getName()).log(Level.SEVERE, null, ex);
    }
  }

  private static ArrayList<Double> getFailureProbs() {
    ArrayList<Double> pfs = new ArrayList<>();
    String sDirectorio = experimentsDir;
    System.out.println("experiments dir" + sDirectorio);
    File f = new File(sDirectorio);
    String extension;
    File[] files = f.listFiles();

    for (File file : files) {
      extension = "";
      int i = file.getName().lastIndexOf('.');
      int p = Math.max(file.getName().lastIndexOf('/'), file.getName().lastIndexOf('\\'));
      if (i > p) {
        extension = file.getName().substring(i + 1);
      }

      // System.out.println(file.getName() + "extension" + extension);
      if (file.isFile()
          && extension.equals("csv")
          && file.getName().startsWith("experiment")
          && file.getName().contains(mazeMode)) {
        System.out.println(file.getName());
        System.out.println("get: " + file.getName());
        String[] filenamep = file.getName().split(Pattern.quote("+"));
        System.out.println("file" + filenamep[8]);
        int popsize = Integer.valueOf(filenamep[2]);
        double pf = Double.valueOf(filenamep[4]);
        String mode = filenamep[6];
        int maxIter = -1;
        // if (!filenamep[8].isEmpty()) {
        maxIter = Integer.valueOf(filenamep[8]);
        // }
        System.out.println("psize:" + popsize);
        System.out.println("pf:" + pf);
        System.out.println("mode:" + mode);
        System.out.println("maxIter:" + maxIter);

        System.out.println("pf:" + pf);
        if (!pfs.contains(pf)) {
          pfs.add(pf);
        }
      }
    }
    System.out.println("pfs" + pfs);
    return pfs;
  }

  /**
   * Creates a sample dataset.
   *
   * @return A sample dataset.
   */
  private BoxAndWhiskerCategoryDataset createSampleDataset(ArrayList<Double> Pf) {

    final int seriesCount = 5;
    final int categoryCount = 4;
    final int entityCount = 22;
    String sDirectorio = experimentsDir;
    File f = new File(sDirectorio);
    String extension;
    File[] files = f.listFiles();
    Hashtable<String, String> Pop = new Hashtable<>();
    PrintWriter escribir;
    Scanner sc = null;
    ArrayList<Integer> aPops = new ArrayList<>();
    ArrayList<Double> aPf = new ArrayList<>();
    ArrayList<String> aTech = new ArrayList<>();

    final DefaultBoxAndWhiskerCategoryDataset dataset = new DefaultBoxAndWhiskerCategoryDataset();

    for (File file : files) {
      extension = "";
      int i = file.getName().lastIndexOf('.');
      int p = Math.max(file.getName().lastIndexOf('/'), file.getName().lastIndexOf('\\'));
      if (i > p) {
        extension = file.getName().substring(i + 1);
      }

      // System.out.println(file.getName() + "extension" + extension);
      if (file.isFile()
          && extension.equals("csv")
          && file.getName().startsWith("experiment")
          && file.getName().contains(mazeMode)) {
        System.out.println(file.getName());
        System.out.println("get: " + file.getName());
        String[] filenamep = file.getName().split(Pattern.quote("+"));

        System.out.println("file" + filenamep[8]);

        int popsize = Integer.valueOf(filenamep[2]);
        double pf = Double.valueOf(filenamep[4]);
        String mode = filenamep[6];

        int maxIter = -1;
        // if (!filenamep[8].isEmpty()) {
        maxIter = Integer.valueOf(filenamep[8]);
        // }

        System.out.println("psize:" + popsize);
        System.out.println("pf:" + pf);
        System.out.println("mode:" + mode);
        System.out.println("maxIter:" + maxIter);

        // String[] aMode = {"random", "levywalk", "sandc", "sandclw"};
        if (
        /*Pf == pf && */ isInMode(aMode, mode)) {
          final List list = new ArrayList();
          try {
            sc = new Scanner(file);

          } catch (FileNotFoundException ex) {
            Logger.getLogger(DataCollectedLatexConsolidatorSASOMessagesSend1.class.getName())
                .log(Level.SEVERE, null, ex);
          }
          int agentsCorrect = 0;
          int worldSize = 0;
          double averageExplored = 0.0;
          int bestRoundNumber = 0;
          double avgSend = 0;
          double avgRecv = 0;
          double avgdataExplInd = 0;
          ArrayList<Double> acSt = new ArrayList<>();
          ArrayList<Double> avgExp = new ArrayList<>();
          ArrayList<Double> bestR = new ArrayList<>();
          ArrayList<Double> avSnd = new ArrayList<>();
          ArrayList<Double> avRecv = new ArrayList<>();
          ArrayList<Double> avIndExpl = new ArrayList<>();

          String[] data = null;
          while (sc.hasNext()) {
            String line = sc.nextLine();
            // System.out.println("line:" + line);
            data = line.split(",");
            agentsCorrect = Integer.valueOf(data[0]);
            // agentsIncorrect = Integer.valueOf(data[1]); // not used
            worldSize = Integer.valueOf(data[3]);
            averageExplored = Double.valueOf(data[4]);
            // data[3] stdavgExplored - not used
            bestRoundNumber = Integer.valueOf(data[6]);
            avgSend = Double.valueOf(data[7]);
            avgRecv = Double.valueOf(data[8]);
            avgdataExplInd = Double.valueOf(data[11]);

            // Add Data and generate statistics
            acSt.add((double) agentsCorrect);
            avgExp.add(averageExplored);

            avSnd.add(avgSend);
            avRecv.add(avgRecv);
            avIndExpl.add(avgdataExplInd);

            list.add(new Double(avgSend));
          }
          LOGGER.debug("Adding series " + i);
          LOGGER.debug(list.toString());
          if (Pf.contains(pf)) {
            /*pf == 1.0E-4 || pf == 3.0E-4*/
            if (Pf.size() == 1) {
              dataset.add(list, popsize, getTechniqueName(mode));
            } else {
              dataset.add(list, String.valueOf(popsize) + "-" + pf, getTechniqueName(mode));
            }
          }
        }
      }
    }

    /*for (int i = 0; i < seriesCount; i++) {
    for (int j = 0; j < categoryCount; j++) {
    final List list = new ArrayList();
    // add some values...
    for (int k = 0; k < entityCount; k++) {
    final double value1 = 10.0 + Math.random() * 3;
    list.add(new Double(value1));
    final double value2 = 11.25 + Math.random(); // concentrate values in the middle
    list.add(new Double(value2));
    }
    LOGGER.debug("Adding series " + i);
    LOGGER.debug(list.toString());
    dataset.add(list, "Series " + i, " Type " + j);
    }

    }*/
    return dataset;
  }

  // ****************************************************************************
  // * JFREECHART DEVELOPER GUIDE                                               *
  // * The JFreeChart Developer Guide, written by David Gilbert, is available   *
  // * to purchase from Object Refinery Limited:                                *
  // *                                                                          *
  // * http://www.object-refinery.com/jfreechart/guide.html                     *
  // *                                                                          *
  // * Sales are used to provide funding for the JFreeChart project - please    *
  // * support us so that we can continue developing free software.             *
  // ****************************************************************************
  /**
   * For testing from the command line.
   *
   * @param args ignored.
   */
  public static void main(final String[] args) {
    //        double pf = Double.valueOf(args[0]);
    //       System.out.println("pf:" + args[0]);
    /* double pf = 0;
    ArrayList<Double> pf0 = new ArrayList<>();
    ArrayList<Double> pfg1 = new ArrayList<>();
    ArrayList<Double> pfg2 = new ArrayList<>();
    ArrayList<Double> pfg3 = new ArrayList<>();

    pf0.add(0.0);
    pfg1.add(1.0E-4);
    pfg1.add(3.0E-4);

    pfg2.add(5.0E-4);
    pfg2.add(7.0E-4);

    pfg3.add(9.0E-4);
    //pfg3.add(1.0E-3);

    //Log.getInstance().addTarget(new PrintStreamLogTarget(System.out));
    final MessagesSent1 demo = new MessagesSent1("Messages Number", pf0);
    final MessagesSent1 demo1 = new MessagesSent1("Messages Number", pfg1);
    final MessagesSent1 demo2 = new MessagesSent1("Messages Number", pfg2);
    final MessagesSent1 demo3 = new MessagesSent1("Messages Number", pfg3);

    //demo.pack();
    //RefineryUtilities.centerFrameOnScreen(demo);
    //demo.setVisible(true);
    */

    if (args.length > 0) {
      experimentsDir = args[0];
    }

    if (args.length > 1) {
      mazeMode = args[1];
    }

    aMode = new String[args.length - 2];

    for (int i = 2; i < args.length; i++) {
      aMode[i - 2] = args[i];
    }

    ArrayList<Double> failureProbs = getFailureProbs();

    for (Double pf : failureProbs) {
      ArrayList<Double> pfi = new ArrayList<>();
      pfi.add(pf);
      final MessagesSent1 demo = new MessagesSent1("Messages Number", pfi);
    }
    /*double pf = 0;
    ArrayList<Double> pf0 = new ArrayList<>();
    ArrayList<Double> pf1 = new ArrayList<>();
    ArrayList<Double> pf3 = new ArrayList<>();
    ArrayList<Double> pf5 = new ArrayList<>();
    ArrayList<Double> pf7 = new ArrayList<>();
    ArrayList<Double> pf9 = new ArrayList<>();
    ArrayList<Double> pf01 = new ArrayList<>();

    pf0.add(0.0);
    pf1.add(1.0E-4);
    pf3.add(3.0E-4);
    pf5.add(5.0E-4);
    pf7.add(7.0E-4);
    pf9.add(9.0E-4);
    pf01.add(1.0E-3);
    */
    // pfg3.add(1.0E-3);
    // Log.getInstance().addTarget(new PrintStreamLogTarget(System.out));
  }

  private boolean isInMode(String[] aMode, String mode) {
    for (String temp : aMode) {
      if (temp.equals(mode)) {
        return true;
      }
    }
    return false;
  }

  private static String getTechniqueName(String mode) {
    switch (mode) {
      case "sandclw":
        return "SandC with Lw";
      case "lwsandc2":
        return "Lw and C";
      case "lwsandc":
        return "Lw and C-Lw";
      case "lwphevap2":
        return "C and Evap";
      case "lwphevap":
        return "C-Lw and Evap";
      default:
        return mode;
    }
  }

  private String getTitle(ArrayList<Double> pf) {
    String s = " with a pf=";

    for (int i = 0; i < pf.size(); i++) {
      s += pf.get(i);
      if (i != pf.size() - 1) {
        s += " and pf=";
      }
    }
    return s;
  }
}