コード例 #1
0
ファイル: EndLabelProcessor.java プロジェクト: eclipse/elk
  /**
   * Places the given end label of the given edge starting at the given node.
   *
   * @param node source node of the edge.
   * @param edge the edge whose end label to place.
   * @param label the end label to place.
   * @param labelSpacing space between objects and labels.
   */
  private void placeEndLabel(
      final LNode node, final LEdge edge, final LLabel label, final double labelSpacing) {

    // Get the nearest port (source port for tail labels, target port for head labels)
    LPort port = null;

    if (label.getProperty(LayeredOptions.EDGE_LABELS_PLACEMENT) == EdgeLabelPlacement.TAIL) {
      port = edge.getSource();
    } else if (label.getProperty(LayeredOptions.EDGE_LABELS_PLACEMENT) == EdgeLabelPlacement.HEAD) {
      port = edge.getTarget();
    }

    // Initialize offset with zero if no offset was present
    if (!northOffset.containsKey(port.getNode())) {
      northOffset.put(port.getNode(), 0.0);
    }
    if (!southOffset.containsKey(port.getNode())) {
      southOffset.put(port.getNode(), 0.0);
    }
    if (!portLabelOffsetHint.containsKey(port)) {
      portLabelOffsetHint.put(port, 0.0);
    }

    // Calculate end label position based on side choice
    // Port side undefined can be left out, because there would be no reasonable
    // way of handling them
    if (label.getProperty(InternalProperties.LABEL_SIDE) == LabelSide.ABOVE) {
      placeEndLabelUpwards(node, label, port, labelSpacing);
    } else {
      placeEndLabelDownwards(node, label, port, labelSpacing);
    }
  }
コード例 #2
0
ファイル: EndLabelProcessor.java プロジェクト: eclipse/elk
  /**
   * Places the given end label below the edge.
   *
   * @param node source node of the edge the label belongs to.
   * @param label the label to place.
   * @param port the end port of the edge the label is nearest to.
   * @param labelSpacing space between objects and labels.
   */
  private void placeEndLabelUpwards(
      final LNode node, final LLabel label, final LPort port, final double labelSpacing) {

    // Remember some stuff
    KVector labelPosition = label.getPosition();
    KVector absolutePortPosition = KVector.sum(port.getPosition(), port.getNode().getPosition());
    KVector absolutePortAnchor = port.getAbsoluteAnchor();
    LMargin portMargin = port.getMargin();

    // Actually calculate the coordinates
    switch (port.getSide()) {
      case WEST:
        labelPosition.x =
            Math.min(absolutePortPosition.x, absolutePortAnchor.x)
                - portMargin.left
                - label.getSize().x
                - labelSpacing;
        labelPosition.y = port.getAbsoluteAnchor().y - label.getSize().y - labelSpacing;
        break;

      case EAST:
        labelPosition.x =
            Math.max(absolutePortPosition.x + port.getSize().x, absolutePortAnchor.x)
                + portMargin.right
                + labelSpacing;
        labelPosition.y = port.getAbsoluteAnchor().y - label.getSize().y - labelSpacing;
        break;

      case NORTH:
        labelPosition.x = port.getAbsoluteAnchor().x + labelSpacing;
        labelPosition.y =
            Math.min(absolutePortPosition.y, absolutePortAnchor.y)
                - portMargin.top
                - label.getSize().y
                - labelSpacing;
        break;

      case SOUTH:
        labelPosition.x = port.getAbsoluteAnchor().x + labelSpacing;
        labelPosition.y =
            Math.max(absolutePortPosition.y + port.getSize().y, absolutePortAnchor.y)
                + portMargin.bottom
                + labelSpacing;
        break;
    }
  }