コード例 #1
0
  /**
   * precondition : 'attribute' MUST contain number values only
   *
   * @param cases
   * @param attribute
   * @return DefaultXYDataset with all values of 'attribute' against event numbers or timestamps.
   */
  private XYSeriesCollection getDataAttributes(
      String[] attributes, boolean byTime, double timesize) {
    XYSeriesCollection result = new XYSeriesCollection();
    for (int index = 0; index < attributes.length; index++) {
      String attribute = attributes[index];
      Integer i = 0;
      XYSeries row = new XYSeries(attribute);
      for (ProcessInstance pi : mylog.getInstances()) {
        Integer x = 0; // count event number
        Date begin = pi.getAuditTrailEntries().first().getTimestamp(); // starting
        // time
        // of
        // process
        // instance

        for (AuditTrailEntry ate : pi.getListOfATEs()) {
          if (ate.getAttributes().containsKey(attribute)) {
            Double val;
            val = Double.valueOf(ate.getAttributes().get(attribute));
            if (byTime) {
              row.add(timediff(begin, ate.getTimestamp()) / timesize, val.doubleValue());
            } else {
              row.add(x.doubleValue(), val.doubleValue());
            }
          }
          x++; // event number in case
        }
        i++; // case number
      }
      result.addSeries(row);
    }
    return result;
  }
コード例 #2
0
 /** @return String[] with all unique attributes on element level */
 private String[] getAttributes() {
   HashSet<String> results = new HashSet();
   for (ProcessInstance pi : mylog.getInstances()) {
     for (AuditTrailEntry ate : pi.getListOfATEs()) {
       results.addAll(ate.getAttributes().keySet());
     }
   }
   String[] t = new String[results.size()];
   return results.toArray(t);
 }
コード例 #3
0
  /**
   * Filters a single process instance.
   *
   * @param instance the process instance to filter
   * @return true if the whole process instance passes the filter, false if the process insstance
   *     should be discarded
   */
  protected boolean doFiltering(ProcessInstance instance) {

    // creating the artificial end task ate
    AuditTrailEntry ate = new AuditTrailEntryImpl();
    ate.setElement(eventName);
    ate.setType(eventType);
    // ate.setTimestamp(new Date(System.currentTimeMillis() + 100000)); //
    // future
    ate.setOriginator("Artificial (ProM)");
    // adding the new end ate at the last position
    try {
      instance.getAuditTrailEntryList().append(ate);
    } catch (IOException e) {
      Message.add("Fatal error in class " + this.getClass() + ":", Message.ERROR);
      return false;
    }
    return true;
  }
コード例 #4
0
 private IntervalXYDataset getHistrogrammedDataAttributes(
     String[] attributes, long barsize, long timesize) {
   IntervalXYDataset dataset = null;
   if (no_intervals) {
     dataset = new XYSeriesCollection();
   } else {
     dataset = new YIntervalSeriesCollection();
   }
   for (int index = 0; index < attributes.length; index++) {
     Histogram histogram = new Histogram(barsize);
     String attribute = attributes[index];
     for (ProcessInstance pi : mylog.getInstances()) {
       Date begin;
       try {
         begin = pi.getAuditTrailEntryList().get(0).getTimestamp();
       } catch (Exception e) {
         Message.add(e.getMessage(), Message.ERROR);
         return null;
       } // starting time of process instance
       int j = 0;
       for (AuditTrailEntry ate : pi.getListOfATEs()) {
         if (ate.getAttributes().containsKey(attribute)) {
           Double val;
           val = Double.valueOf(ate.getAttributes().get(attribute));
           if (xbox.getSelectedIndex() == 2) {
             histogram.addValue(j, val);
           }
           if (xbox.getSelectedIndex() == 3) {
             histogram.addValue(timediff(begin, ate.getTimestamp()), val);
           }
           j++;
         }
       }
     }
     if (no_intervals) {
       ((XYSeriesCollection) dataset).addSeries(histogram.getXYSeries(attribute, timesize));
     } else {
       ((YIntervalSeriesCollection) dataset)
           .addSeries(histogram.getYIntervalSeries(attribute, timesize));
     }
   }
   return dataset;
 }
コード例 #5
0
  /**
   * Constructor method.
   *
   * @param pi process instance to be stored.
   */
  public FilterPerWorkflowModelElementAndEvent(ProcessInstance pi, int numberSimilarPIs) {

    if (pi != null) {
      AuditTrailEntryListImpl ates = null;

      try {
        ates = new AuditTrailEntryListImpl();

        for (int i = 0; i < pi.getAuditTrailEntryList().size(); i++) {
          AuditTrailEntry ate = new AuditTrailEntryImpl();
          ate.setElement(pi.getAuditTrailEntryList().get(i).getElement());
          ate.setType(pi.getAuditTrailEntryList().get(i).getType());
          ates.append(ate);
        }
      } catch (IOException ioe) {
        System.err.println(
            "Could not create an AuditTrailEntryListImpl in constructor of the class org.processmining.exporting.log.util.FilterPerWorkflowModelElementAndEvent!");
      }

      if (pi.getAttributes().containsKey(IDENTIFIERS)) {
        processInstance = new ProcessInstanceImpl(pi.getProcess(), ates, pi.getModelReferences());
        processInstance.setDataAttributes(pi.getDataAttributes());
        processInstance.setName(pi.getName());
        processInstance.setDescription(pi.getDescription());

      } else {

        processInstance = new ProcessInstanceImpl(pi.getProcess(), ates, pi.getModelReferences());
        processInstance.setDataAttributes(new DataSection());
        processInstance.setName(pi.getName());
        processInstance.setDescription(pi.getDescription());
        addGroupedPiIdentifier(pi.getName());
      }

      setNumberSimilarPIs(Integer.toString(numberSimilarPIs));

    } else {
      throw new NullPointerException("pi equals null!");
    }
  }
コード例 #6
0
  /**
   * Fires a element even if it is not enabled. When the element has duplicates, it looks ahead to
   * set which duplicate to fire.
   *
   * <p><b>Note:</b> The element MUST be in the net.
   *
   * @param element element to be fired.
   * @param pi process instance where the element to be fired is.
   * @param elementPositionInPi element position.
   * @return int number of tokens that needed to be added to fire this element.
   */
  public int fire(int element, ProcessInstance pi, int elementPositionInPi) {

    int addedTokens = 0;
    int elementDuplicates;

    if ((hNet.getReverseDuplicatesMapping()[element]).size() == 1) {
      elementDuplicates = hNet.getReverseDuplicatesMapping()[element].get(0);
    } else {
      // identify which duplicate to fire
      HNSubSet duplicates = hNet.getReverseDuplicatesMapping()[element].deepCopy();

      // getting the duplicates that are enabled
      for (int i = 0; i < duplicates.size(); i++) {

        if (!isEnabled(duplicates.get(i))) {
          duplicates.remove(duplicates.get(i));
        }
      }

      if (duplicates.size() > 0) {
        if (duplicates.size() == 1) {
          elementDuplicates = duplicates.get(0);
        } else {
          // getting the output tasks of the duplicates. These output
          // are used to
          // look ahead at the process instance
          HNSubSet unionMappedToATEsCode = getAllOutputElementsOfDuplicates(duplicates);
          AuditTrailEntryList ATEntriesList = pi.getAuditTrailEntryList();
          // advancing the pointer in the ATEntries till the current
          // element + 1

          AuditTrailEntry ATEntry;
          int elementInATE = -1;
          for (int i = elementPositionInPi + 1; i < ATEntriesList.size(); i++) {
            try {
              ATEntry = ATEntriesList.get(i);
              elementInATE =
                  this.hNet
                      .getLogEvents()
                      .findLogEventNumber(ATEntry.getElement(), ATEntry.getType());
              if (unionMappedToATEsCode.contains(elementInATE)) {
                break;
              }

            } catch (IOException ex) {
              break;
            } catch (IndexOutOfBoundsException ex) {
              break;
            }
          }
          elementDuplicates = identifyDuplicateToFire(duplicates, elementInATE);
        }
      } else {
        // because no duplicate is enabled, a random one is chosen to
        // fire...
        elementDuplicates =
            (hNet.getReverseDuplicatesMapping()[element])
                .get(generator.nextInt(hNet.getReverseDuplicatesMapping()[element].size()));
      }
    }

    bestCombination = findBestSetTasks(elementDuplicates);
    addedTokens += bestCombination.getNumberMissingTokens();
    removeTokensOutputPlaces(elementDuplicates, bestCombination.getTasks());
    addTokensOutputPlaces(elementDuplicates);
    addToPossiblyEnabledElements(elementDuplicates);

    // registering the firing of element...
    hNet.increaseElementActualFiring(
        elementDuplicates,
        MethodsForWorkflowLogDataStructures.getNumberSimilarProcessInstances(pi));
    // updating the arc usage for the individual...
    hNet.increaseArcUsage(
        bestCombination.getElementToFire(),
        bestCombination.getTasks(),
        MethodsForWorkflowLogDataStructures.getNumberSimilarProcessInstances(pi));

    return addedTokens;
  }