Ejemplo n.º 1
0
 /**
  * Recursive traverse of tree to determine selections A leaf is selected if rsm is selected.
  * Nonleaf nodes are selected if all children are selected.
  *
  * @param tn node in the tree for which to determine selection
  * @param nodeidx the ordinal postion in the segments array
  * @param gsm the graph segments selection model
  * @param rsm the table row selection model
  * @return true if given node tn is selected, else false
  */
 private boolean selTraverse(
     TreeNode tn, int[] nodeidx, ListSelectionModel gsm, ListSelectionModel rsm) {
   boolean selected = true;
   if (!tn.isLeaf()) {
     // A nonleaf node is selected if all its children are selected.
     for (int i = 0; i < tn.getChildCount(); i++) {
       TreeNode cn = tn.getChildAt(i);
       selected &= selTraverse(cn, nodeidx, gsm, rsm);
     }
   } else {
     if (tn instanceof RowCluster) {
       // get the row index of the leaf node
       int ri = ((RowCluster) tn).getIndex();
       // A leaf is selected if its row is selected in the row selection rsm.
       selected = rsm.isSelectedIndex(ri);
     }
   }
   // Get the offset into the segments array
   int idx = nodeidx[0] * segOffset;
   if (selected) {
     gsm.addSelectionInterval(idx, idx + (segOffset - 1));
   } else {
     gsm.removeSelectionInterval(idx, idx + (segOffset - 1));
   }
   // Increment the nodeidx in the tree
   nodeidx[0]++;
   return selected;
 }
Ejemplo n.º 2
0
  @Override
  public void adoptElement(SceneElement elem) {
    if (!(elem instanceof NenyaImageSceneElement
        || elem instanceof NenyaTileSceneElement
        || elem instanceof NenyaComponentSceneElement)) {
      enableEditor(false);
      return;
    }

    DefaultComboBoxModel dcm = (DefaultComboBoxModel) itemList.getModel();

    // Important: Work on a copy, not on the original. Otherwise we mess up the undomanager
    sceneElement = elem.copy();

    if ((sceneElement instanceof NenyaImageSceneElement) && !locked) {
      dcm.removeAllElements();
      String[] tmp = ((NenyaImageSceneElement) sceneElement).getPath();
      dcm.addElement(tmp[tmp.length - 1]);
    }
    if ((sceneElement instanceof NenyaTileSceneElement) && !locked) {
      dcm.removeAllElements();
      dcm.addElement(((NenyaTileSceneElement) sceneElement).getTileName());
    }
    if ((sceneElement instanceof NenyaComponentSceneElement) && !locked) {
      dcm.removeAllElements();
      NenyaComponentItem[] ni = ((NenyaComponentSceneElement) sceneElement).getComponents();
      for (NenyaComponentItem element : ni) {
        dcm.addElement(element);
      }
    }

    try {
      ClassedItem[] cols = null;
      if (elem instanceof NenyaTileSceneElement)
        cols = ((NenyaTileSceneElement) elem).getColorList();
      if (elem instanceof NenyaImageSceneElement)
        cols = ((NenyaImageSceneElement) elem).getColorList();
      if (elem instanceof NenyaComponentSceneElement) {
        NenyaComponentItem nci = (NenyaComponentItem) dcm.getSelectedItem();
        cols = nci.getColorList();
      }
      Vector<TreePath> collect = new Vector<TreePath>();
      TreeNode root = (TreeNode) colors.getModel().getRoot();
      for (ClassedItem col : cols) {
        String[] tmp = {root.toString(), col.getClassName(), col.getItemName()};
        collect.add(TreeUtil.findPath(root, tmp));
      }
      TreePath[] path = collect.toArray(new TreePath[0]);
      colors.getSelectionModel().setSelectionPaths(path);
    } catch (Exception e) {
      // Either the tree is filtered away or the selected item is not colorized.
    }

    enableEditor(true);
    itemList.setEnabled(elem instanceof NenyaComponentSceneElement);
  }
Ejemplo n.º 3
0
 /**
  * Return a count of this node and all its descendents.
  *
  * @param node A node in the Treemodel.
  * @return The number of nodes in this branch of the Treemodel.
  */
 private static int getNodeCount(TreeNode tn) {
   int nc = 1; // this node
   if (!tn.isLeaf()) {
     for (int i = 0; i < tn.getChildCount(); i++) {
       TreeNode cn = tn.getChildAt(i);
       nc += getNodeCount(cn);
     }
   }
   return nc;
 }
Ejemplo n.º 4
0
 /**
  * Return the number of leaf nodes that descend from the given node.
  *
  * @param node A node in the Treemodel.
  * @return The number of leaf nodes that descend from the given node.
  */
 private static int getLeafCount(TreeNode tn) {
   int lc = 0;
   if (!tn.isLeaf()) {
     for (int i = 0; i < tn.getChildCount(); i++) {
       TreeNode cn = tn.getChildAt(i);
       lc += getLeafCount(cn);
     }
   } else {
     lc = 1;
   }
   return lc;
 }
Ejemplo n.º 5
0
 /**
  * Traververse the tree selecting rows coresponding to leaf nodes of the given node tn
  *
  * @param tn the node from which to start traversing
  * @param rsm the selection model in which to mark selected rows
  */
 private void selectTraverse(TreeNode tn, ListSelectionModel rsm) {
   if (!tn.isLeaf()) {
     for (int i = 0; i < tn.getChildCount(); i++) {
       TreeNode cn = tn.getChildAt(i);
       selectTraverse(cn, rsm);
     }
   } else {
     if (tn instanceof RowCluster) {
       int ri = ((RowCluster) tn).getIndex();
       rsm.addSelectionInterval(ri, ri);
     }
   }
 }
Ejemplo n.º 6
0
  TreePath getTreePath(TreeNode treeNode) {

    TreeNode parent = treeNode.getParent();
    if (parent == null) {
      return new TreePath(treeNode);
    } else {
      TreePath ptp = getTreePath(parent);
      ptp = ptp.pathByAddingChild(treeNode);
      return ptp;
    }
  }
Ejemplo n.º 7
0
  /**
   * Traverse the tree creating dendogram graph line segments, a nodemap, and a leafmap. Traversal
   * is depth first. return child position currentleafcnt
   *
   * @param tn the tree node to traverse
   * @param leafcnt the leafcount prior to this node
   * @param parentDistance the distance of the parent node
   * @param nodeidx the current node index, incremented after each node is traversed
   * @param nodemap an ordered list of nodes traversed
   * @param leafmap an order list of row indices to the leafnode traversed
   * @param segs line segments comprising the dendogram
   * @param childpos position of child node returned to parent
   * @return the leafcount after traversing this node
   */
  private int traverse(
      TreeNode tn,
      int leafcnt,
      double parentDistance,
      int[] nodeidx,
      TreeNode[] nodemap,
      int[] leafmap,
      double[] segs,
      double childpos[]) {
    int lc = leafcnt;
    double distance = 0.;
    double height = 0.;
    double minChildx = Double.NaN;
    double maxChildx = Double.NaN;
    double minChildy = Double.NaN;
    double maxChildy = Double.NaN;
    if (tn instanceof Cluster) {
      distance = ((Cluster) tn).getSimilarity();
    } else {
      distance = ((DefaultMutableTreeNode) tn).getDepth();
    }
    if (!tn.isLeaf()) {
      for (int i = 0; i < tn.getChildCount(); i++) {
        TreeNode cn = tn.getChildAt(i);
        lc = traverse(cn, lc, distance, nodeidx, nodemap, leafmap, segs, childpos);
        if (Double.isNaN(minChildx) || childpos[0] < minChildx) {
          minChildx = childpos[0];
        }
        if (Double.isNaN(maxChildx) || childpos[0] > maxChildx) {
          maxChildx = childpos[0];
        }
        if (Double.isNaN(minChildy) || childpos[1] < minChildy) {
          minChildy = childpos[1];
        }
        if (Double.isNaN(maxChildy) || childpos[1] > maxChildy) {
          maxChildy = childpos[1];
        }
      }
    } else {
      if (tn instanceof RowCluster) {
        leafmap[lc] = ((RowCluster) tn).getIndex();
      }
      minChildx = distance;
      maxChildx = distance;
      minChildy = lc;
      maxChildy = lc;
      lc++;
    }
    // offset into segs
    int offset = nodeidx[0] * segOffset * 4;
    nodemap[nodeidx[0]] = tn;
    nodeidx[0]++;

    if (segs.length < offset + 8) {
      double tmp[] = segs;
      segs = new double[offset + 8];
      System.arraycopy(tmp, 0, segs, 0, tmp.length);
    }

    // segment from  minchild to  maxchild
    segs[offset++] = distance; // X
    segs[offset++] = minChildy; // Y
    segs[offset++] = distance; // X
    segs[offset++] = maxChildy; // Y
    // segment from node to parent of length distance
    // postision half way between first and last child
    double y = minChildy + (maxChildy - minChildy) / 2.;
    segs[offset++] = distance; // X
    segs[offset++] = y; // Y
    segs[offset++] = parentDistance; // X
    segs[offset++] = y; // Y
    /*
        System.err.println(tn.toString() + "       \tmlc " + leafcnt + " lc " + lc + " pd " + parentDistance + " d " + distance);
        for (int i = 8, j = leafcnt * 8;   i < 8; i++,j++) {
          System.err.print("\t" + segs[j]);
        }
        System.err.println("");
    */
    // Update return values
    childpos[0] = distance;
    childpos[1] = y;
    return lc;
  }