VTK/Java Wrapping: Difference between revisions
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$ java -cp your_vtk_build_dir/bin/vtk.jar:your_vtk_source_dir/Wrapping/Java vtk.sample.Demo | $ java -cp your_vtk_build_dir/bin/vtk.jar:your_vtk_source_dir/Wrapping/Java vtk.sample.Demo | ||
== | == Sample Code (from VTK/Wrapping/Java/vtk/sample/SimpleVTK.java) == | ||
<source lang="java"> | <source lang="java"> |
Revision as of 19:12, 18 August 2011
Configuration
You basically just need to turn VTK_WRAP_JAVA on in CMake and build.
Bartlomiej Wilkowski has created a nice tutorial of configuring Java wrapping with VTK.
Mac (Snow Leopard)
To build a sample application provided in VTK against your VTK build directory (with an installed VTK replace "bin" with "lib"):
$ export DYLD_LIBRARY_PATH=$DYLD_LIBRARY_PATH:your_vtk_build_dir/bin $ javac -cp your_vtk_build_dir/bin/vtk.jar your_vtk_source_dir/Wrapping/Java/vtk/sample/Demo.java $ java -cp your_vtk_build_dir/bin/vtk.jar:your_vtk_source_dir/Wrapping/Java vtk.sample.Demo
Sample Code (from VTK/Wrapping/Java/vtk/sample/SimpleVTK.java)
<source lang="java"> /**
* An application that displays a 3D cone. The button allow to close the * application */
public class SimpleVTK extends JPanel implements ActionListener {
private static final long serialVersionUID = 1L; private vtkPanel renWin; private JButton exitButton;
// ----------------------------------------------------------------- // Load VTK library and print which library was not properly loaded static { if (!vtkNativeLibrary.LoadAllNativeLibraries()) { for (vtkNativeLibrary lib : vtkNativeLibrary.values()) { if (!lib.IsLoaded()) { System.out.println(lib.GetLibraryName() + " not loaded"); } } } vtkNativeLibrary.DisableOutputWindow(null); }
// ----------------------------------------------------------------- public SimpleVTK() { super(new BorderLayout());
// build VTK Pipeline vtkConeSource cone = new vtkConeSource(); cone.SetResolution(8);
vtkPolyDataMapper coneMapper = new vtkPolyDataMapper(); coneMapper.SetInputConnection(cone.GetOutputPort());
vtkActor coneActor = new vtkActor(); coneActor.SetMapper(coneMapper);
renWin = new vtkPanel(); renWin.GetRenderer().AddActor(coneActor);
// Add Java UI components exitButton = new JButton("Exit"); exitButton.addActionListener(this);
add(renWin, BorderLayout.CENTER); add(exitButton, BorderLayout.SOUTH); }
/** An ActionListener that listens to the button. */ public void actionPerformed(ActionEvent e) { if (e.getSource().equals(exitButton)) { System.exit(0); } }
public static void main(String s[]) { SwingUtilities.invokeLater(new Runnable() { @Override public void run() { JFrame frame = new JFrame("SimpleVTK"); frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); frame.getContentPane().setLayout(new BorderLayout()); frame.getContentPane().add(new SimpleVTK(), BorderLayout.CENTER); frame.setSize(400, 400); frame.setLocationRelativeTo(null); frame.setVisible(true); } }); }
} </source>
Java Wrapper Refactoring (Oct 8, 2007)
There were a few problems with the old Java wrappers. One was that, as you said, objects were being deleted before they were supposed to. We hacked in a fix at one point about a year ago which basically made all VTK objects accessed from Java stay around forever, but this was not acceptable either.
Ref:
The other major concern was that the map from Java objects to VTK objects was in the C++ JNI layer, and while we tried to keep this map synchronized with a mutex, race conditions could still occur because other Java threads could advance while the JNI layer was being called (a thread could access a C++ object just as it is being garbage-collected and deleted). There does not seem to be a way to atomically call a JNI method, or ensure the collector doesn't run while a method is called. This second issue forced us to rethink how the map is done, and the solution was to keep the map in Java instead of C++. But we didn't want this Java map to prohibit objects from being garbage collected. Fortunately, Java has a WeakReference class for just this type of purpose. When accessed, the reference will either be valid or null depending on whether it has been garbage-collected.
http://java.sun.com/j2se/1.4.2/docs/api/java/lang/ref/WeakReference.html
Thus, the wrapper code can lookup objects in this map when returning objects from methods, and if it is not there, or null, it creates a new Java object representing that C++ object.
A final issue was that we wanted a way to guarantee all C++ destructors are called before the program exits. The natural place to decrement the reference count of the C++ object is in finalize(), which works when things are garbage-collected, but Java does not guarantee that finalize will ever be called. So the method vtkGlobalJavaHash.DeleteAll() will plow through the remaining VTK objects and call Delete on them.