import javax.swing.event.TreeModelEvent; import javax.swing.event.TreeModelListener; import javax.swing.tree.TreePath; import java.util.Vector; import java.util.HashMap; import java.util.Enumeration; import drafts.com.sun.star.accessibility.*; import com.sun.star.uno.UnoRuntime; import com.sun.star.uno.XInterface; import com.sun.star.uno.Any; import com.sun.star.lang.EventObject; import com.sun.star.lang.XServiceInfo; import com.sun.star.lang.XServiceName; public class AccessibilityTreeModel extends AccessibilityTreeModelBase { public boolean mbVerbose = false; public AccessibilityTreeModel (AccessibleTreeNode aRoot) { // create default node (unless we have a 'proper' node) if( ! (aRoot instanceof AccessibleTreeNode) ) aRoot = new StringNode ("Root", null); setRoot (aRoot); maNodeMap = new NodeMap(); maEventListener = new EventListener (this); mxListener = new QueuedListener (maEventListener); } public void clear () { maNodeMap.Clear(); } /** Lock the tree. While the tree is locked, events from the outside are not processed. Lock the tree when you change its internal structure. */ public void lock () { mnLockCount += 1; } /** Unlock the tree. After unlocking the tree as many times as locking it, a treeStructureChange event is sent to the event listeners. @param aNodeHint If not null and treeStructureChange events are thrown then this node is used as root of the modified subtree. */ public void unlock (AccessibleTreeNode aNodeHint) { mnLockCount -= 1; if (mnLockCount == 0) fireTreeStructureChanged ( new TreeModelEvent (this, new TreePath (aNodeHint.createPath()))); } /** Inform all listeners (especially the renderer) of a change of the tree's structure. @param aNode This node specifies the sub tree in which all changes take place. */ public void FireTreeStructureChanged (AccessibleTreeNode aNode) { } public synchronized void setRoot (AccessibleTreeNode aRoot) { if (getRoot() == null) super.setRoot (aRoot); else { lock (); maNodeMap.ForEach (new NodeMapCallback () { public void Apply (AccTreeNode aNode) { if (maCanvas != null) maCanvas.removeNode (aNode); removeAccListener ((AccTreeNode)aNode); } }); maNodeMap.Clear (); setRoot (aRoot); unlock (aRoot); } } // // child management: // /** Delegate the request to the parent and then register listeners at the child and add the child to the canvas. */ public Object getChild (Object aParent, int nIndex) { AccessibleTreeNode aChild = (AccessibleTreeNode)super.getChild (aParent, nIndex); if (aChild == null) System.out.println ("getChild: child not found"); else // Keep translation table up-to-date. addNode (aChild); return aChild; } public Object getChildNoCreate (Object aParent, int nIndex) { AccessibleTreeNode aChild = (AccessibleTreeNode)super.getChildNoCreate (aParent, nIndex); return aChild; } /** Remove a node (and all children) from the tree model. */ protected boolean removeChild (AccessibleTreeNode aNode) { try { if( aNode == null ) { System.out.println ("can't remove null node"); return false; } else { // depth-first removal of children while (aNode.getChildCount() > 0) if ( ! removeChild (aNode.getChildNoCreate (0))) break; // Remove node from its parent. AccessibleTreeNode aParent = aNode.getParent(); if (aParent != null) { int nIndex = aParent.indexOf(aNode); aParent.removeChild (nIndex); } maNodeMap.RemoveNode (aNode); } } catch (Exception e) { System.out.println ("caught exception while removing child " + aNode + " : " + e); e.printStackTrace (); return false; } return true; } public void removeNode (XAccessibleContext xNode) { if (xNode != null) { AccessibleTreeNode aNode = maNodeMap.GetNode (xNode); AccessibleTreeNode aRootNode = (AccessibleTreeNode)getRoot(); TreeModelEvent aEvent = createEvent (aRootNode, aNode); removeChild (aNode); if (mbVerbose) System.out.println (aNode); fireTreeNodesRemoved (aEvent); maCanvas.repaint (); } } /** Add add a new child to a parent. @return Returns the new or existing representation of the specified accessible object. */ protected AccessibleTreeNode addChild (AccTreeNode aParentNode, XAccessible xNewChild) { AccessibleTreeNode aChildNode = null; try { boolean bRet = false; // First make sure that the accessible object does not already have // a representation. aChildNode = maNodeMap.GetNode(xNewChild); if (aChildNode == null) aChildNode = aParentNode.addAccessibleChild (xNewChild); else System.out.println ("node already present"); } catch (Exception e) { System.out.println ("caught exception while adding child " + xNewChild + " to parent " + aParentNode + ": " + e); e.printStackTrace (); } return aChildNode; } public void addChild (XAccessibleContext xParent, XAccessible xChild) { AccessibleTreeNode aParentNode = maNodeMap.GetNode (xParent); if (aParentNode instanceof AccTreeNode) { AccessibleTreeNode aChild = addChild ((AccTreeNode)aParentNode, xChild); if (addNode (aChild)) { if (maCanvas != null) maCanvas.updateNode ((AccTreeNode)aParentNode); // A call to fireTreeNodesInserted for xNew // should be sufficient but at least the // StringNode object that contains the number of // children also changes and we do not know its // index relative to its parent. Therefore the // more expensive fireTreeStructureChanged is // necessary. fireTreeNodesInserted (createEvent (xParent, xChild)); updateNode (xParent, AccessibleTreeHandler.class); } maCanvas.repaint (); } } /** Add the child node to the internal tree structure. @param aNode The node to insert into the internal tree structure. */ protected boolean addNode (AccessibleTreeNode aNode) { boolean bRet = false; try { if ( ! maNodeMap.ValueIsMember (aNode)) { if (aNode instanceof AccTreeNode) { AccTreeNode aChild = (AccTreeNode)aNode; XAccessibleContext xChild = aChild.getContext(); registerAccListener (aChild); if (maCanvas != null) maCanvas.addNode (aChild); maNodeMap.InsertNode (xChild, aChild); } bRet = true; } } catch (Exception e) { System.out.println ("caught exception while adding node " + aNode + ": " + e); e.printStackTrace (); } return bRet; } /** create path to node, suitable for TreeModelEvent constructor * @see javax.swing.event.TreeModelEvent#TreeModelEvent */ protected Object[] createPath (AccessibleTreeNode aNode) { Vector aPath = new Vector(); aNode.createPath (aPath); return aPath.toArray(); } // // listeners (and helper methods) // // We are registered with listeners as soon as objects are in the // tree cache, and we should get removed as soon as they are out. // protected void fireTreeNodesChanged(TreeModelEvent e) { for(int i = 0; i < maTMListeners.size(); i++) { ((TreeModelListener)maTMListeners.get(i)).treeNodesChanged(e); } } protected void fireTreeNodesInserted(final TreeModelEvent e) { for(int i = 0; i < maTMListeners.size(); i++) { ((TreeModelListener)maTMListeners.get(i)).treeNodesInserted(e); } } protected void fireTreeNodesRemoved(final TreeModelEvent e) { for(int i = 0; i < maTMListeners.size(); i++) { ((TreeModelListener)maTMListeners.get(i)).treeNodesRemoved(e); } } protected void fireTreeStructureChanged(final TreeModelEvent e) { for(int i = 0; i < maTMListeners.size(); i++) { ((TreeModelListener)maTMListeners.get(i)).treeStructureChanged(e); } } protected TreeModelEvent createEvent (XAccessibleContext xParent) { AccessibleTreeNode aParentNode = maNodeMap.GetNode (xParent); return new TreeModelEvent (this, createPath (aParentNode)); } /** Create a TreeModelEvent object that informs listeners that one child has been removed from or inserted into its parent. */ public TreeModelEvent createEvent (XAccessibleContext xParent, XAccessible xChild) { AccessibleTreeNode aParentNode = maNodeMap.GetNode (xParent); return createEvent (aParentNode, xParent); } public TreeModelEvent createEvent (AccessibleTreeNode aParentNode, XAccessibleContext xChild) { AccessibleTreeNode aChildNode = null; if (xChild != null) aChildNode = maNodeMap.GetNode (xChild); return createEvent (aParentNode, aChildNode); } protected TreeModelEvent createEvent ( AccessibleTreeNode aParentNode, AccessibleTreeNode aChildNode) { Object[] aPathToParent = createPath (aParentNode); int nIndexInParent = -1; if (aChildNode != null) nIndexInParent = aParentNode.indexOf (aChildNode); if (mbVerbose) System.out.println (aChildNode + " " + nIndexInParent); if (nIndexInParent == -1) // This event may be passed only to treeStructureChanged of the listeners. return new TreeModelEvent (this, aPathToParent); else // General purpose event for removing or inserting known nodes. return new TreeModelEvent (this, aPathToParent, new int[] {nIndexInParent}, new Object[] {aChildNode} ); } /** Create a TreeModelEvent that indicates changes at those children of the specified node with the specified indices. */ protected TreeModelEvent createChangeEvent (AccTreeNode aNode, Vector aChildIndices) { // Build a list of child objects that are indicated by the given indices. int nCount = aChildIndices.size(); Object aChildObjects[] = new Object[nCount]; int nChildIndices[] = new int[nCount]; for (int i=0; i