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I have been looking at using JOGL to create some things and have been looking through what documentation I can find.

Brief tutorials they all mention how using the JOGL version of canvas can have performance issues and instead you should use NEWT. However each and every tutorial / FAQ then goes on to use the canvas! Or simply specify a few tiny snippets of methods to create a window using NEWT but which (on my machine at least) I cannot get to correctly run.

Does anyone have a good source of examples of how to correctly implement creating and rendering to a window in JOGL using the NEWT method? I'm not even sure how it functions compared to the Canvas so an explanation of the differences between the two and a typical layout of methods to create / manage / render to a window would be ideal.

Just a little lost and cannot find anything useful. Hope someone's come across something before!

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2 Answers 2

up vote 0 down vote accepted

take a look at JOGL's junit tests, they cover large parts of the NEWT API.

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This tutorial helped me a lot, see chapter 3.9 - Yet Another Tutorial on JOGL. Also documentation is useful. Take a look at the attached example, please.

import com.jogamp.newt.event.WindowAdapter;
import com.jogamp.newt.event.WindowEvent;
import com.jogamp.newt.opengl.GLWindow;
import com.jogamp.opengl.util.FPSAnimator;

 * A program that draws with JOGL in a NEWT GLWindow.
public class JOGL2NewtDemo {
    private static String TITLE = "JOGL 2 with NEWT";  // window's title
    private static final int WINDOW_WIDTH = 640;  // width of the drawable
    private static final int WINDOW_HEIGHT = 480; // height of the drawable
    private static final int FPS = 60; // animator's target frames per second

    static {
        GLProfile.initSingleton();  // The method allows JOGL to prepare some Linux-specific locking optimizations

     * The entry main() method.
    public static void main(String[] args) {
        // Get the default OpenGL profile, reflecting the best for your running platform
        GLProfile glp = GLProfile.getDefault();
        // Specifies a set of OpenGL capabilities, based on your profile.
        GLCapabilities caps = new GLCapabilities(glp);
        // Create the OpenGL rendering canvas
        GLWindow window = GLWindow.create(caps);

        // Create a animator that drives canvas' display() at the specified FPS.
        final FPSAnimator animator = new FPSAnimator(window, FPS, true);

        window.addWindowListener(new WindowAdapter() {
            public void windowDestroyNotify(WindowEvent arg0) {
                // Use a dedicate thread to run the stop() to ensure that the
                // animator stops before program exits.
                new Thread() {
                    public void run() {
                        if (animator.isStarted())
                            animator.stop();    // stop the animator loop

        window.addGLEventListener(new JOGL2Renderer());
        window.setSize(WINDOW_WIDTH, WINDOW_HEIGHT);
        animator.start();  // start the animator loop


 * Class handles the OpenGL events to render graphics.
public class JOGL2Renderer implements GLEventListener {
    private double theta = 0.0f;  // rotational angle

     * Called back by the drawable to render OpenGL graphics 
    public void display(GLAutoDrawable drawable) {
        GL2 gl = drawable.getGL().getGL2();   // get the OpenGL graphics context

        gl.glClear(GL.GL_COLOR_BUFFER_BIT);    // clear background
        gl.glLoadIdentity();                   // reset the model-view matrix    

          // Rendering code - draw a triangle
        float sine = (float)Math.sin(theta);
        float cosine = (float)Math.cos(theta);
        gl.glColor3f(1, 0, 0);
        gl.glVertex2d(-cosine, -cosine);
        gl.glColor3f(0, 1, 0);
        gl.glVertex2d(0, cosine);
        gl.glColor3f(0, 0, 1);
        gl.glVertex2d(sine, -sine);


     * Update the rotation angle after each frame refresh 
    private void update() {
        theta += 0.01;

    /*... Other methods leave blank ...*/
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