// Fig. 20.2: TemperatureServerImpl.java // TemperatureServerImpl definition import java.rmi.*; import java.rmi.server.*; import java.util.*; import java.io.*; import java.net.*; public class TemperatureServerImpl extends UnicastRemoteObject implements TemperatureServer { private WeatherInfo weatherInformation[]; public TemperatureServerImpl() throws RemoteException { super(); updateWeatherConditions(); } // get weather information from NWS private void updateWeatherConditions() throws RemoteException { try { System.err.println( "Updating weather information..." ); // Traveler's Forecast Web Page URL url = new URL( "http://iwin.nws.noaa.gov/iwin/us/traveler.html" ); BufferedReader in = new BufferedReader( new InputStreamReader( url.openStream() ) ); System.out.println("Connecting ok"); // // String separator = ""; // String separator = ""; // locate first horizontal line on Web page // while ( !in.readLine().startsWith( separator ) ) // ; // do nothing System.out.println("Connecting ok"); // s1 is the day format and s2 is the night format String s1 = " CITY WEA HI/LO WEA HI/LO"; //String s2 = // " CITY WEA LO/HI WEA LO/HI"; String s2 = "CITY WEA HI/LO WEA HI/LO"; // String inputLine = ""; // locate header that begins weather information do { inputLine = in.readLine(); } while ( !inputLine.equals( s2) ); //&& // !inputLine.equals( s2 ) ); System.out.println("Connecting ok"); Vector cityVector = new Vector(); inputLine = in.readLine(); // get first city's info while ( !(inputLine.length() <= 1)) { // create WeatherInfo object for city WeatherInfo w = new WeatherInfo( inputLine.substring( 0, 16 ), inputLine.substring( 16, 23 ), inputLine.substring( 24, 30 ) ); // System.out.println("Connecting ok"); cityVector.addElement( w ); // add to Vector inputLine = in.readLine(); // get next city's info System.out.println(inputLine); } System.out.println("Connecting ok1"); // create array to return to client weatherInformation = new WeatherInfo[ cityVector.size() ]; for ( int i = 0; i < weatherInformation.length; i++ ) weatherInformation[ i ] = ( WeatherInfo ) cityVector.elementAt( i ); System.err.println( "Finished Processing Data." ); in.close(); // close connection to NWS server } catch( java.net.ConnectException ce ) { System.err.println( "Connection failed." ); System.exit( 1 ); } catch( Exception e ) { e.printStackTrace(); System.exit( 1 ); } } // implementation for TemperatureServer interface method public WeatherInfo[] getWeatherInfo() { return weatherInformation; } public static void main( String args[] ) throws Exception { System.err.println( "Initializing server: please wait." ); // create server object TemperatureServerImpl temp = new TemperatureServerImpl(); // bind TemperatureServerImpl object to the rmiregistry String serverObjectName = "//localhost/TempServer"; Naming.rebind( serverObjectName, temp ); System.err.println( "The Temperature Server is up and running." ); } } /************************************************************************** * (C) Copyright 1999 by Deitel & Associates, Inc. and Prentice Hall. * * All Rights Reserved. * * * * DISCLAIMER: The authors and publisher of this book have used their * * best efforts in preparing the book. These efforts include the * * development, research, and testing of the theories and programs * * to determine their effectiveness. The authors and publisher make * * no warranty of any kind, expressed or implied, with regard to these * * programs or to the documentation contained in these books. The authors * * and publisher shall not be liable in any event for incidental or * * consequential damages in connection with, or arising out of, the * * furnishing, performance, or use of these programs. * *************************************************************************/