/** * Returns the image information of the specified path, if it represents an image information. * Otherwise returns null. * * @param path the tree path. * @return the image information. */ protected XmlInformation getInformation(TreePath path) { String path_str = ""; Object[] paths = path.getPath(); for (int i = 1; i < paths.length; i++) { String name = (String) ((DefaultMutableTreeNode) paths[i]).getUserObject(); path_str += "/" + name; } XmlInformation info = (XmlInformation) hash_info.get(path_str); return info; }
/** * Expands the sub folders and image informations under the specified node. * * @param node the node. */ protected void expandNode(DefaultMutableTreeNode node) { try { Object[] paths = node.getPath(); String path_str = ""; Vector folder_list = new Vector(); for (int i = 1; i < paths.length; i++) { String name = (String) ((DefaultMutableTreeNode) paths[i]).getUserObject(); path_str += "/" + name; // Converts January...December to 1...12. if (mode == DATE_ORIENTED && i == 2) { for (int m = 1; m <= 12; m++) { if (JulianDay.getFullSpellMonthString(m).equals(name)) name = String.valueOf(m); } } folder_list.addElement(name); } // When to expand sub folders. Vector folders = new Vector(); if (mode == DATE_ORIENTED) folders = db_manager.getDateOrientedFolders(folder_list); if (mode == PATH_ORIENTED) folders = db_manager.getPathOrientedFolders(folder_list); addNode(node, folders); // When to expand image informations. XmlDBAccessor accessor = null; if (mode == DATE_ORIENTED) accessor = db_manager.getDateOrientedAccessor(folder_list); if (mode == PATH_ORIENTED) accessor = db_manager.getPathOrientedAccessor(folder_list); if (accessor != null) { Vector name_list = new Vector(); XmlInformation info = (XmlInformation) accessor.getFirstElement(); while (info != null) { name_list.addElement(info.getPath()); hash_info.put(path_str + "/" + info.getPath(), info); info = (XmlInformation) accessor.getNextElement(); } addNode(node, name_list); } revalidate(); repaint(); } catch (IOException exception) { String message = "Failed to read the database."; JOptionPane.showMessageDialog(pane, message, "Error", JOptionPane.ERROR_MESSAGE); } }
public void doPost(HttpServletRequest request, HttpServletResponse response) throws ServletException, IOException { try { address = PAConfiguration.getAddress(); port = PAConfiguration.getPort(instantiation); poslAddress = PAConfiguration.getPOSL(instantiation, topic); rdfAddress = PAConfiguration.getRDFTaxonomy(instantiation); messageEndpoint = PAConfiguration.getEndpointName(instantiation, topic); } catch (BadConfigurationException e) { System.out.println(e.getMessage()); e.printStackTrace(); System.exit(0); } response.setContentType("text/html; charset=UTF-8"); PrintWriter out = response.getWriter(); try { System.out.println("5 Publicty Chair Servlet"); System.out.println(response.toString()); BufferedReader brd = request.getReader(); String input = ""; String message = ""; while (!input.equals("</RuleML>")) { input = brd.readLine(); message = message + input; } String[] varOrder = getVariableOrder(message); System.out.println("Received Message: " + message); // BackwardReasoner br = new BackwardReasoner(); // Iterator solit =null; // DefiniteClause dc = null; // SymbolTable.reset(); POSLParser pp = new POSLParser(); // String contents = "c(a).\nc(b).\nc(c)."; Date t1 = new GregorianCalendar().getTime(); System.out.println(t1.getHours() + ":" + t1.getMinutes()); // append time to contents System.out.println("day: " + t1.getDay()); System.out.println("day: " + t1.getYear()); System.out.println("day: " + t1.getMonth()); // time String time = "time(" + t1.getHours() + ":integer)."; System.out.println(time); String url = poslAddress; // String url = "http://www.jdrew.org/oojdrew/test.posl"; String contents = ""; // day of the week int day = t1.getDay(); boolean weekday = true; if (day == 0 || day == 6) { weekday = false; } String dayOfWeek; if (weekday) { dayOfWeek = "day(weekday)."; } else { dayOfWeek = "day(weekend)."; } // full date Calendar cal = new GregorianCalendar(); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day2 = cal.get(Calendar.DAY_OF_MONTH); String date; String day3 = "" + day2; if (day2 == 1 || day2 == 2 || day2 == 3 || day2 == 4 || day2 == 5 || day2 == 6 || day2 == 7 || day2 == 8 || day2 == 9) { day3 = "0" + day2; } if (month == 10 || month == 11 || month == 12) date = "" + year + month + day3; else date = "" + year + "0" + month + day3; date = "date(" + date + ":integer)."; System.out.println(date); String url2 = rdfAddress; HttpClient client2 = new HttpClient(); GetMethod method2 = new GetMethod(url2); method2.setFollowRedirects(true); String typestr = ""; // Execute the GET method int statusCode2 = client2.executeMethod(method2); if (statusCode2 != -1) { typestr = method2.getResponseBodyAsString(); } System.out.println("Types: " + typestr); Types.reset(); RDFSParser.parseRDFSString(typestr); try { HttpClient client = new HttpClient(); GetMethod method = new GetMethod(url); method.setFollowRedirects(true); // Execute the GET method int statusCode = client.executeMethod(method); if (statusCode != -1) { contents = method.getResponseBodyAsString(); } } catch (Exception e) { e.printStackTrace(); } contents = contents + "\n" + time; contents = contents + "\n" + dayOfWeek; contents = contents + "\n" + date; BackwardReasoner br = new BackwardReasoner(); Iterator solit = null; DefiniteClause dc = null; SymbolTable.reset(); pp.parseDefiniteClauses(contents); br.loadClauses(pp.iterator()); System.out.println("TEST"); Iterator it = pp.iterator(); while (it.hasNext()) { DefiniteClause d = (DefiniteClause) it.next(); System.out.println("Loaded clause: " + d.toPOSLString()); } br = new BackwardReasoner(br.clauses, br.oids); MessageParser m = new MessageParser(message); Element atom = null; try { atom = m.parseForContent(); } catch (Exception e) { System.out.println("Invalid Message"); // out.flush(); } QueryBuilder q = new QueryBuilder(atom); String query = q.generateDoc(); System.out.println("ABOUT TO INPUT THIS QUERY:" + query); RuleMLParser qp = new RuleMLParser(); try { dc = qp.parseRuleMLQuery(query); } catch (Exception e) { System.out.println("Invalid Query"); // out.flush(); } // solit = br.iterativeDepthFirstSolutionIterator(dc); solit = br.iterativeDepthFirstSolutionIterator(dc); int varSize = 0; while (solit.hasNext()) { Vector data = new Vector(); BackwardReasoner.GoalList gl = (BackwardReasoner.GoalList) solit.next(); Hashtable varbind = gl.varBindings; javax.swing.tree.DefaultMutableTreeNode root = br.toTree(); root.setAllowsChildren(true); javax.swing.tree.DefaultTreeModel dtm = new DefaultTreeModel(root); int i = 0; Object[][] rowdata = new Object[varbind.size()][2]; varSize = varbind.size(); Enumeration e = varbind.keys(); while (e.hasMoreElements()) { Object k = e.nextElement(); Object val = varbind.get(k); String ks = (String) k; rowdata[i][0] = ks; rowdata[i][1] = val; i++; } data.addElement(rowdata); String[] messages = new String[data.size()]; MessageGenerator g = new MessageGenerator( data, varSize, messageEndpoint, m.getId(), m.getProtocol(), m.getRel(), varOrder); messages = g.Messages2(); String appender = ""; URL sender = new URL(address + ":" + port); HttpMessage msg = new HttpMessage(sender); Properties props = new Properties(); for (int i1 = 0; i1 < data.size(); i1++) { System.out.println(i1 + ")" + messages[i1].toString()); props.put("text", messages[i1].toString()); InputStream in = msg.sendGetMessage(props); } System.out.println("NEXT MESSAGE"); } MessageGenerator g = new MessageGenerator( null, varSize, messageEndpoint, m.getId(), m.getProtocol(), m.getRel()); URL sender = new URL(address + ":" + port); HttpMessage msg = new HttpMessage(sender); Properties props = new Properties(); String finalMessage = g.finalMessage(query); System.out.println(finalMessage); props.put("text", finalMessage); InputStream in = msg.sendGetMessage(props); System.out.println("Stop_Communication"); } catch (Exception e) { System.out.println("ERROR has occured : " + e.toString()); } out.close(); }