/**
     * Get a path from the local FS. If size is known, we go round-robin over the set of disks (via
     * the configured dirs) and return the first complete path which has enough space.
     *
     * <p>If size is not known, use roulette selection -- pick directories with probability
     * proportional to their available space.
     */
    public synchronized Path getLocalPathForWrite(
        String pathStr, long size, Configuration conf, boolean checkWrite) throws IOException {
      confChanged(conf);
      int numDirs = localDirsPath.length;
      int numDirsSearched = 0;
      // remove the leading slash from the path (to make sure that the uri
      // resolution results in a valid path on the dir being checked)
      if (pathStr.startsWith("/")) {
        pathStr = pathStr.substring(1);
      }
      Path returnPath = null;
      Path path = new Path(pathStr);

      if (size == SIZE_UNKNOWN) { // do roulette selection: pick dir with probability
        // proportional to available size
        long[] availableOnDisk = new long[dirDF.length];
        long totalAvailable = 0;

        // build the "roulette wheel"
        for (int i = 0; i < dirDF.length; ++i) {
          availableOnDisk[i] = dirDF[i].getAvailable();
          totalAvailable += availableOnDisk[i];
        }

        // Keep rolling the wheel till we get a valid path
        Random r = new java.util.Random();
        while (numDirsSearched < numDirs && returnPath == null) {
          long randomPosition = Math.abs(r.nextLong()) % totalAvailable;
          int dir = 0;
          while (randomPosition > availableOnDisk[dir]) {
            randomPosition -= availableOnDisk[dir];
            dir++;
          }
          dirNumLastAccessed = dir;
          returnPath = createPath(path, checkWrite);
          if (returnPath == null) {
            totalAvailable -= availableOnDisk[dir];
            availableOnDisk[dir] = 0; // skip this disk
            numDirsSearched++;
          }
        }
      } else {
        while (numDirsSearched < numDirs && returnPath == null) {
          long capacity = dirDF[dirNumLastAccessed].getAvailable();
          if (capacity > size) {
            returnPath = createPath(path, checkWrite);
          }
          dirNumLastAccessed++;
          dirNumLastAccessed = dirNumLastAccessed % numDirs;
          numDirsSearched++;
        }
      }
      if (returnPath != null) {
        return returnPath;
      }

      // no path found
      throw new DiskErrorException("Could not find any valid local " + "directory for " + pathStr);
    }
  public void testIdentityCalculator() throws Exception {
    execute("CRUD.new");
    assertNoErrors();
    setValue("number", "-1"); // needed in this case because 0 is an existing key
    setValue("name", "JUNIT COLOR " + (int) (Math.random() * 200));
    execute("TypicalNotResetOnSave.save");
    assertNoErrors();
    String last = getValue("number");

    execute("CRUD.new");
    assertNoErrors();
    setValue("number", "-1"); // needed in this case because 0 is an existing key
    setValue("name", "JUNIT COLOR " + (int) (Math.random() * 200));
    execute("TypicalNotResetOnSave.save");
    assertNoErrors();
    String next = String.valueOf(Integer.parseInt(last) + 1);
    assertValue("number", next);
  }
 void numRecStats(byte[] record, int start, int len) throws IOException {
   numRec_++;
   if (numRec_ == nextStatusRec_) {
     String recordStr = new String(record, start, Math.min(len, statusMaxRecordChars_), "UTF-8");
     nextStatusRec_ += 100; // *= 10;
     String status = getStatus(recordStr);
     LOG.info(status);
     reporter_.setStatus(status);
   }
 }
 private int[] getWidths(TableModel tableModel) {
   int[] widths = new int[tableModel.getColumnCount()];
   for (int r = 0;
       r < Math.min(tableModel.getRowCount(), 500);
       r++) { // 500 is not for performance, but for using only a sample of data with huge table
     for (int c = 0; c < tableModel.getColumnCount(); c++) {
       Object o = tableModel.getValueAt(r, c);
       if (o instanceof String) {
         String s = ((String) o).trim();
         if (s.length() > widths[c]) widths[c] = s.length();
       }
     }
   }
   return widths;
 }
Beispiel #5
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  public void setUp() throws Exception {

    String time = String.valueOf((new Date()).getTime()).substring(8);
    String random = String.valueOf(Math.random()).substring(2);
    unique = (time + random);
    serviceName = "javaTastyTest-" + unique;

    JTastyDAO dao = new JTastyMockDAO();

    TastyBean tb = new TastyBean();
    tb.setDao(dao);
    tc = new TastyClient(tastyServerUrl, serviceName);
    tc.setTastyBean(tb);

    logger.debug(tastyServerUrl + "/service/" + serviceName);
    // create the service:
    tc.post(tastyServerUrl + "/service/" + serviceName);
    // add the user:

    tc.beanstatus();
  }
  public GaussianDistribution(double[] values) {
    // Logger.getAnonymousLogger().info(String.valueOf(values.length));

    // 1. mean
    double sum = 0;
    for (double v : values) sum += v;
    this.mean = sum / values.length;
    // System.out.println(this.mean);

    // 2. variance
    double[] deltas = values.clone();
    for (int i = 0; i < values.length; i++) {
      double diff = values[i] - this.mean;
      deltas[i] = diff * diff;
    }

    sum = 0;
    for (double v : deltas) sum += v;

    this.variance = sum / (values.length - 1);

    // 3. standard deviation
    this.standardDeviation = Math.sqrt(this.variance);
  }
 public double probability(Double value) {
   double expArg = -.5 * (value - mean) * (value - mean) / variance;
   return Math.pow(2. * Math.PI * variance, -.5) * Math.exp(expArg);
 }
 public GaussianDistribution(double mean, double deviance) {
   this.mean = mean;
   this.variance = deviance;
   this.standardDeviation = Math.sqrt(deviance);
 }