private void removeNodeFromParent(DefaultMutableTreeNode node) { TreeNode parent = node.getParent(); int idx = parent.getIndex(node); node.removeFromParent(); (getModel()).nodesWereRemoved(parent, new int[] {idx}, new TreeNode[] {node}); }
/* Clear all existing nodes from the tree model and rebuild from scratch. */ protected void refreshTree() { DefaultMutableTreeNode propertiesNode; DefaultMutableTreeNode leaf; // First clear the existing tree by simply enumerating // over the root node's children and removing them one by one. while (treeModel.getChildCount(rootNode) > 0) { DefaultMutableTreeNode child = (DefaultMutableTreeNode) treeModel.getChild(rootNode, 0); treeModel.removeNodeFromParent(child); child.removeAllChildren(); child.removeFromParent(); } treeModel.nodeStructureChanged(rootNode); treeModel.reload(); tScrollPane.repaint(); // Now rebuild the tree below its root try { // Start by naming the root node from its URL: rootNode.setUserObject(dMeta.getURL()); // get metadata about user tables by building a vector of table names String usertables[] = {"TABLE", "GLOBAL TEMPORARY", "VIEW"}; ResultSet result = dMeta.getTables(null, null, null, usertables); Vector tables = new Vector(); // sqlbob@users Added remarks. Vector remarks = new Vector(); while (result.next()) { tables.addElement(result.getString(3)); remarks.addElement(result.getString(5)); } result.close(); // For each table, build a tree node with interesting info for (int i = 0; i < tables.size(); i++) { String name = (String) tables.elementAt(i); DefaultMutableTreeNode tableNode = makeNode(name, rootNode); ResultSet col = dMeta.getColumns(null, null, name, null); // sqlbob@users Added remarks. String remark = (String) remarks.elementAt(i); if ((remark != null) && !remark.trim().equals("")) { makeNode(remark, tableNode); } // With a child for each column containing pertinent attributes while (col.next()) { String c = col.getString(4); DefaultMutableTreeNode columnNode = makeNode(c, tableNode); String type = col.getString(6); makeNode("Type: " + type, columnNode); boolean nullable = col.getInt(11) != DatabaseMetaData.columnNoNulls; makeNode("Nullable: " + nullable, columnNode); } col.close(); DefaultMutableTreeNode indexesNode = makeNode("Indices", tableNode); ResultSet ind = dMeta.getIndexInfo(null, null, name, false, false); String oldiname = null; // A child node to contain each index - and its attributes while (ind.next()) { DefaultMutableTreeNode indexNode = null; boolean nonunique = ind.getBoolean(4); String iname = ind.getString(6); if ((oldiname == null || !oldiname.equals(iname))) { indexNode = makeNode(iname, indexesNode); makeNode("Unique: " + !nonunique, indexNode); oldiname = iname; } // And the ordered column list for index components makeNode(ind.getString(9), indexNode); } ind.close(); } // Finally - a little additional metadata on this connection propertiesNode = makeNode("Properties", rootNode); makeNode("User: "******"ReadOnly: " + cConn.isReadOnly(), propertiesNode); makeNode("AutoCommit: " + cConn.getAutoCommit(), propertiesNode); makeNode("Driver: " + dMeta.getDriverName(), propertiesNode); makeNode("Product: " + dMeta.getDatabaseProductName(), propertiesNode); makeNode("Version: " + dMeta.getDatabaseProductVersion(), propertiesNode); } catch (SQLException se) { propertiesNode = makeNode("Error getting metadata:", rootNode); makeNode(se.getMessage(), propertiesNode); makeNode(se.getSQLState(), propertiesNode); } treeModel.nodeStructureChanged(rootNode); treeModel.reload(); tScrollPane.repaint(); }