// Fig. 6.12: MethodOverload.java // Using overloaded methods import java.awt.Container; import javax.swing.*; public class MethodOverload extends JApplet { // create GUI and call each square method public void init() { JTextArea outputArea = new JTextArea(); Container container = getContentPane(); container.add( outputArea ); outputArea.setText( "The square of integer 7 is " + square( 7 ) + "\nThe square of double 7.5 is " + square( 7.5 ) ); } // end method init // square method with int argument public int square( int intValue ) { System.out.println( "Called square with int argument: " + intValue ); return intValue * intValue; } // end method square with int argument // square method with double argument public double square( double doubleValue ) { System.out.println( "Called square with double argument: " + doubleValue ); return doubleValue * doubleValue; } // end method square with double argument } // end class MethodOverload /************************************************************************** * (C) Copyright 1992-2003 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. * *************************************************************************/