Examples/java/extend/runme.java - third_party/swig - Git at Google

 // This file illustrates the cross language polymorphism using directors.


 // CEO class, which overrides Employee::getPosition().

 class CEO extends Manager {
   public CEO(String name) {
     super(name);
     }
   public String getPosition() {
     return "CEO";
     }
   // Public method to stop the SWIG proxy base class from thinking it owns the underlying C++ memory.
   public void disownMemory() {
     swigCMemOwn = false;
   }
 }


 public class runme {
   static {
     try {
         System.loadLibrary("example");
     } catch (UnsatisfiedLinkError e) {
       System.err.println("Native code library failed to load. See the chapter on Dynamic Linking Problems in the SWIG Java documentation for help.\n" + e);
       System.exit(1);
     }
   }

   public static void main(String argv[])
   {

     // Create an instance of CEO, a class derived from the Java proxy of the
     // underlying C++ class. The calls to getName() and getPosition() are standard,
     // the call to getTitle() uses the director wrappers to call CEO.getPosition().

     CEO e = new CEO("Alice");
     System.out.println( e.getName() + " is a " + e.getPosition() );
     System.out.println( "Just call her \"" + e.getTitle() + "\"" );
     System.out.println( "----------------------" );


     // Create a new EmployeeList instance.  This class does not have a C++
     // director wrapper, but can be used freely with other classes that do.

     EmployeeList list = new EmployeeList();

     // EmployeeList owns its items, so we must surrender ownership of objects we add.
     e.disownMemory();
     list.addEmployee(e);
     System.out.println( "----------------------" );

     // Now we access the first four items in list (three are C++ objects that
     // EmployeeList's constructor adds, the last is our CEO). The virtual
     // methods of all these instances are treated the same. For items 0, 1, and
     // 2, all methods resolve in C++. For item 3, our CEO, getTitle calls
     // getPosition which resolves in Java. The call to getPosition is
     // slightly different, however, because of the overidden getPosition() call, since
     // now the object reference has been "laundered" by passing through
     // EmployeeList as an Employee*. Previously, Java resolved the call
     // immediately in CEO, but now Java thinks the object is an instance of
     // class Employee. So the call passes through the
     // Employee proxy class and on to the C wrappers and C++ director,
     // eventually ending up back at the Java CEO implementation of getPosition().
     // The call to getTitle() for item 3 runs the C++ Employee::getTitle()
     // method, which in turn calls getPosition(). This virtual method call
     // passes down through the C++ director class to the Java implementation
     // in CEO. All this routing takes place transparently.

     System.out.println( "(position, title) for items 0-3:" );

     System.out.println( "  " + list.get_item(0).getPosition() + ", \"" + list.get_item(0).getTitle() + "\"" );
     System.out.println( "  " + list.get_item(1).getPosition() + ", \"" + list.get_item(1).getTitle() + "\"" );
     System.out.println( "  " + list.get_item(2).getPosition() + ", \"" + list.get_item(2).getTitle() + "\"" );
     System.out.println( "  " + list.get_item(3).getPosition() + ", \"" + list.get_item(3).getTitle() + "\"" );
     System.out.println( "----------------------" );

     // Time to delete the EmployeeList, which will delete all the Employee*
     // items it contains. The last item is our CEO, which gets destroyed as well.
     list.delete();
     System.out.println( "----------------------" );

     // All done.

     System.out.println( "java exit" );

   }
 }
	// This file illustrates the cross language polymorphism using directors.


	// CEO class, which overrides Employee::getPosition().

	class CEO extends Manager {
	public CEO(String name) {
	super(name);
	}
	public String getPosition() {
	return "CEO";
	}
	// Public method to stop the SWIG proxy base class from thinking it owns the underlying C++ memory.
	public void disownMemory() {
	swigCMemOwn = false;
	}
	}


	public class runme {
	static {
	try {
	System.loadLibrary("example");
	} catch (UnsatisfiedLinkError e) {
	System.err.println("Native code library failed to load. See the chapter on Dynamic Linking Problems in the SWIG Java documentation for help.\n" + e);
	System.exit(1);
	}
	}

	public static void main(String argv[])
	{

	// Create an instance of CEO, a class derived from the Java proxy of the
	// underlying C++ class. The calls to getName() and getPosition() are standard,
	// the call to getTitle() uses the director wrappers to call CEO.getPosition().

	CEO e = new CEO("Alice");
	System.out.println( e.getName() + " is a " + e.getPosition() );
	System.out.println( "Just call her \"" + e.getTitle() + "\"" );
	System.out.println( "----------------------" );


	// Create a new EmployeeList instance. This class does not have a C++
	// director wrapper, but can be used freely with other classes that do.

	EmployeeList list = new EmployeeList();

	// EmployeeList owns its items, so we must surrender ownership of objects we add.
	e.disownMemory();
	list.addEmployee(e);
	System.out.println( "----------------------" );

	// Now we access the first four items in list (three are C++ objects that
	// EmployeeList's constructor adds, the last is our CEO). The virtual
	// methods of all these instances are treated the same. For items 0, 1, and
	// 2, all methods resolve in C++. For item 3, our CEO, getTitle calls
	// getPosition which resolves in Java. The call to getPosition is
	// slightly different, however, because of the overidden getPosition() call, since
	// now the object reference has been "laundered" by passing through
	// EmployeeList as an Employee*. Previously, Java resolved the call
	// immediately in CEO, but now Java thinks the object is an instance of
	// class Employee. So the call passes through the
	// Employee proxy class and on to the C wrappers and C++ director,
	// eventually ending up back at the Java CEO implementation of getPosition().
	// The call to getTitle() for item 3 runs the C++ Employee::getTitle()
	// method, which in turn calls getPosition(). This virtual method call
	// passes down through the C++ director class to the Java implementation
	// in CEO. All this routing takes place transparently.

	System.out.println( "(position, title) for items 0-3:" );

	System.out.println( " " + list.get_item(0).getPosition() + ", \"" + list.get_item(0).getTitle() + "\"" );
	System.out.println( " " + list.get_item(1).getPosition() + ", \"" + list.get_item(1).getTitle() + "\"" );
	System.out.println( " " + list.get_item(2).getPosition() + ", \"" + list.get_item(2).getTitle() + "\"" );
	System.out.println( " " + list.get_item(3).getPosition() + ", \"" + list.get_item(3).getTitle() + "\"" );
	System.out.println( "----------------------" );

	// Time to delete the EmployeeList, which will delete all the Employee*
	// items it contains. The last item is our CEO, which gets destroyed as well.
	list.delete();
	System.out.println( "----------------------" );

	// All done.

	System.out.println( "java exit" );

	}
	}