Пример #1
0
  /**
   * Returns a new descriptor eqiuvalent to this+D. Remember, composition is not commutative for all
   * attributes, and may not exist for some. To compose, remember to call
   * {@linkDescriptor#isComposable() isComposable} first and try both <code>A.compose (B)</code> and
   * <code>B.compose (A)</code>.
   *
   * @param D The Descriptor to compose with this Descriptor.
   * @param scope The attribute scope and mapping.
   * @return A new Descriptor that is equivalent to the composition of this and the argument D.
   * @throws BadDataException if the compose semantics are not correct.
   * @throws UncomposableException this instance of the descriptor cannot be composed. Check
   *     isComposable!
   */
  public Descriptor compose(Descriptor D, EvaluationParameters.ScopeRules scope)
      throws BadDataException, UncomposableException {
    DescAggregate temp = (DescAggregate) this.clone();
    // Unify Descriptions and Spans
    temp.span = temp.span.union(D.getFrameSpan());
    if (D.getClass().equals(DescSingle.class)) {
      if (idList.contains(D.getID()))
        throw new BadDataException("Attempting to compose the same descriptor multiple times");
      else temp.idList.add(D.getID());
    } else {
      // First, check to see if there are any dup ID numbers
      Iterator iterA = idList.iterator();
      Iterator iterB = ((TreeSet) D.getID()).iterator();
      Comparable A = (Comparable) iterA.next();
      Comparable B = (Comparable) iterB.next();

      /// difference will be negative iff A < B, and positive iff A > B.
      // I wish java had operator overloading. I really do.
      double difference = A.compareTo(B);
      while (iterA.hasNext() && iterB.hasNext() && (difference != 0)) {
        while ((difference < 0) && (iterA.hasNext() && iterB.hasNext())) {
          A = (Comparable) iterA.next();
          difference = A.compareTo(B);
        }
        while ((difference > 0) && (iterA.hasNext() && iterB.hasNext())) {
          B = (Comparable) iterB.next();
          difference = A.compareTo(B);
        }
      }
      if (difference == 0)
        // If there was a dup ID num, return 0
        throw new BadDataException("Attempting to compose the same descriptor multiple times");
      temp.idList.addAll(((DescAggregate) D).idList);
    }

    // Unify Attributes
    String errMsg = null;
    for (Iterator iter = scope.getInScopeAttributesFor(temp); iter.hasNext(); ) {
      String currAttrName = (String) iter.next();
      int i = temp.getAttributeIndex(currAttrName, scope.getMap());
      try {
        temp.attributes[i] =
            Attribute.compose(
                this.span,
                this.getAttribute(currAttrName, scope.getMap()),
                D.span,
                D.getAttribute(currAttrName, scope.getMap()));
      } catch (UncomposableException ux) {
        if (errMsg == null) {
          errMsg = ux.getMessage();
        } else {
          errMsg += "\n" + ux.getMessage();
        }
      }
    }
    if (errMsg != null) System.err.println(errMsg + "\n fix your .epf");
    return temp;
  }
Пример #2
0
  /**
   * Constructs a new aggregate descriptor that contains the contents of the given single
   * descriptor.
   *
   * @param D the descriptor
   * @throws BadDataException from parent constructor
   */
  public DescAggregate(DescSingle D) throws BadDataException {
    super();
    setName(D.getName());
    attributes = new Attribute[D.attributes.length];
    for (int i = 0; i < D.attributes.length; i++)
      attributes[i] = (Attribute) D.attributes[i].clone();

    span = (FrameSpan) D.span.clone();
    idList = new TreeSet();
    idList.add(new Integer(D.id));

    setCategory(D.getCategory());
  }
Пример #3
0
  /**
   * Generates a new Descriptor Object sharing none of the references of the original but containing
   * identical data.
   *
   * @return new Descriptor initialized with this Descriptor's data
   */
  public Object clone() {
    DescAggregate temp;
    try {
      temp = new DescAggregate(getCategory());
    } catch (BadDataException bdx) {
      throw new IllegalStateException(bdx.getMessage());
    }
    temp.setName(getName());
    temp.attributes = new Attribute[attributes.length];
    for (int i = 0; i < attributes.length; i++)
      temp.attributes[i] = (Attribute) attributes[i].clone();

    temp.idList = (TreeSet) idList.clone();
    temp.span = (span == null) ? null : (FrameSpan) span.clone();
    return temp;
  }
Пример #4
0
  /** @inheritDoc */
  public Descriptor crop(FrameSpan span) {
    span.intersectWith(this.span);

    DescAggregate copy;
    try {
      copy = new DescAggregate(getCategory());
    } catch (BadDataException bdx) {
      throw new IllegalStateException(bdx.getMessage());
    }
    copy.setName(getName());
    copy.attributes = new Attribute[attributes.length];
    for (int i = 0; i < attributes.length; i++) {
      copy.attributes[i] = attributes[i].crop(span, this.span);
    }

    copy.idList = (TreeSet) idList.clone();
    copy.span = span;
    return copy;
  }
Пример #5
0
 /**
  * Gets the number of descriptor ids associated with this aggregate descriptor. This is equal to
  * the number of single descriptors this aggregate contains.
  *
  * @return the number of ids
  */
 public int numIDs() {
   return idList.size();
 }