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I've tried using JOGL for Java + OpenGL. And it seems to work rather nicely. However, under my endavors with opengl i noticed that it isn't very object oriented. How can I use OpenGL together with object oriented language like Java?

For example, how would one organize the OpenGL code and Java code in an MVC pattern? Is it as straightforward as one should think? or are there any problems with integrating OpenGL/JOGL into this way of thinking?

Anyone have any good or bad experiences with this?

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I don't really understand why this question was closed. Of course it is a little bit open formulated. But does it really not fit into the Q&A format?! It would be awesome to hear some other feedback and experiences on that topic. –  Prine Aug 18 '11 at 1:24
    
I agree, would be great to see how people have solved this problem. –  netbrain Aug 18 '11 at 7:52
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closed as not constructive by Andreas Brinck, Wooble, genpfault, finnw, Graviton Aug 18 '11 at 1:17

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2 Answers

up vote 4 down vote accepted

I just finished a bigger project with JOGL. I'm trying to describe a little bit how we tried to use it in an Object Oriented way.

Background on the project
The task was to visualize magnetic fields on the sun in 3D. As input we've received huge amounts of data which represents the vectors.

Our approach
So what we've tried was to create somehow a MVC structure. As you maybe also already have noticed it isn't that easy to create a clean separation. But I found it always hard to define what belongs to the model and what belongs to the controller. Here is the architecture we came up.

MODEL
As Model we've used the Datastructure were we are storing the vector field data. The VectorImporter parses all the data and stores it in the Datastructure.

CONTROLLER
As Controller we've defined a so called VectorFieldManager which is basically the Mediator between the Model and the View. It as several methods to get a vector field to a specified time dimension. It also contains several filters to reduce the massive amount of data to only the needed parts.

VIEW
As view we've used a class called VectorRenderer. This VectorRenderer class is responsible for all the drawing. So this means it should have access to the GL object.

To give you a better overview of the whole structure I've made this illustration which contains the main components of our application.

Overview of the different components

MainGui is like the name says the main gui. In our case it contains a left pane with some control panels in it. Center pane is occupied by the ViewPort. The ViewPort is a GLCanvas and is the mother of all GL drawings. The whole rendering process is started from here. As you also see in the illustration we've a PluginManager. The PluginManager contains different plugins. This plugins could be ControlPlugins which are placed in the leftPane or it could be a RenderPlugin. RenderPlugins do all implement a specified interface.

public interface RenderPlugin {
  /**
   * Provide the GLCanvas
   * 
   * @param gl GLCanvas
   * @param currentTime current time position
   */
   void render(GL gl, float currentTime);

  /**
   * Get type
   * 
   * @return RenderPluginType
   */
   RenderPluginType getType();

  /**
   * Activate the RenderPlugin
   */
   public void activate();

  /**
   * Deactivate the RenderPlugin
   */
   public void deactivate();
}

You see the most important method is the render(..) Method. So every RenderPlugin can directly access the GL object and do every GL operation you need. To handle all the Plugins (ControlPlugins and RenderPlugins) we are using the PluginManager. The PluginManager is a Singleton class and is called in the ViewPort class in the display(..) method. With the following line we simply loop over all RenderPlugins the PluginManager contains and calls the render method. This looks like that:

public void display(GLAutoDrawable drawable) {
    gl.glEnable(GL.GL_DEPTH_TEST);
    gl.glDepthFunc(GL.GL_LEQUAL);
    gl.glClear(GL.GL_COLOR_BUFFER_BIT | GL.GL_DEPTH_BUFFER_BIT);
    gl.glPolygonMode(GL.GL_FRONT_AND_BACK, GL.GL_FILL);


    // set the projection again. this needs to be done when the
    // active camera has changed
    if (setProjection) {
        cam.setProjection(gl, this.getWidth(), this.getHeight());
        setProjection = false;
    }

    cam.setView(gl);

    // get the current time from AnimatorController
    float time = animatorController.getCurrentTimestamp();

        // PLUGIN MANAGER - Call the render method on all RenderPlugins
    // Render all the RenderPlugins from the PluginManager
    for(RenderPlugin renderPlugin : pluginManager.getRenderPlugins()) {
        renderPlugin.render(gl, time);
    }

    animatorController.tick();
}

So with that you have a pretty simple but quite clean system to enable and disable stuff in the render process. The communication between ControlPlugins and RenderPlugins is done with the Observer Pattern.

To sum up with an example. The VectorRenderer implements the RenderPlugin. So it is directly called in the ViewPort.display(..) method. To get the Data the VectorRender (VIEW) is using the VectorFieldManager (CONTROLLER) to get a vector field. The VectorFieldManager (CONTROLLER) gets from the Datastructure (MODEL) the parsed data.

The answer got pretty long. Haha, I should have been writing the documentation for the final project report but instead I found this question on stack overflow. So now I've documented it (some how.. :)) and hopefully gave you a short overview how you could handle this.

As addition I want to say that our way isn't perfect. But it showed that the system with the PluginManager was pretty handy. Specially because we had to develop several different plugins.

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Wow great post! really insightfull! it shows that jogl + oop way of thinking can be applied without too much problem! great! thanks again! +1! –  netbrain Aug 18 '11 at 7:49
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How can I use OpenGL together with object oriented language like Java?

Have a look at the Java 3D API. It is fully object oriented and very well designed. You probably won't "learn OpenGL" though, as it is merely a back-end for the framework.

Anyone have any good or bad experiences with this?

I've done some work with Java 3D and I find it very nicely designed and easy to understand / use.

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My only concern with this is that it's no longer mantained, and not as powerfull as it's opengl counterpart. –  netbrain Aug 16 '11 at 12:30
    
Where does it say that it's no longer maintained? And why isn't it as powerful as OpenGL? It uses OpenGL as far as I know. –  aioobe Aug 16 '11 at 12:33
    
Im pretty certain i read it "somewhere", and yes it uses opengl, but i believe you still are hampered by the framework to some extent. But maybe someone else with a better understanding of this can clear this up for us.. –  netbrain Aug 16 '11 at 12:34
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That depends on how you define hampered. –  Andreas Brinck Aug 16 '11 at 12:36
    
As you seem to still be learning OpenGL, I doubt that you'll run into lots of things that are too low-level for the library, which can be handled by the lower level opengl calls. In fact, I believe you may feel more hampered by dealing with the opengl calls directly. –  aioobe Aug 16 '11 at 12:40
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