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On an NVIDIA card I can perform full scene anti-aliasing using the accumulation buffer something like this:

if(m_antialias)
{
    glClear(GL_ACCUM_BUFFER_BIT);
    for(int j = 0; j < antialiasing; j++)
    {
        accPerspective(m_camera.FieldOfView(), // Vertical field of view in degrees.
            aspectratio, // The aspect ratio.
            20., // Near clipping
            1000.,
            JITTER[antialiasing][j].X(), JITTER[antialiasing][j].Y(),
            0.0, 0.0, 1.0);

        m_camera.gluLookAt();

        ActualDraw();

        glAccum(GL_ACCUM, float(1.0 / antialiasing));

        glDrawBuffer(GL_FRONT);
        glAccum(GL_RETURN, float(antialiasing) / (j + 1));
        glDrawBuffer(GL_BACK);
    }

    glAccum(GL_RETURN, 1.0);
}

On ATI cards the accumulation buffer is not implemented, and everyone says that you can do that in shader language now. The problem with that, of course, is that GLSL is a pretty high barrier to entry for an OpenGL beginner.

Can anyone point me to something that will show me how to do whole-scene anti-aliasing in a way that ATI cards can do, and that a newbie can understand?

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1 Answer 1

up vote 14 down vote accepted

Why would you ever do antialiasing this way, regardless of whether you have accumulation buffers or not? Just use multisampling; it's not free, but it's much cheaper than what you're doing.

First, you have to create a context with a multisampled buffer. That means you need to use WGL/GLX_ARB_multisample, which means that on Windows, you need to do two-stage context creation. You should request a pixel format with 1 *_SAMPLE_BUFFERS_ARB and some number of *_SAMPLES_ARB. The larger the number of samples, the better the antialiasing (also the slower). You can get the maximum number of samples with wglGetPixelFormatAttribfv or glXGetConfig.

Once you have successfully created a context with a multisample framebuffer, you render as normal, with one exception: call glEnable(GL_MULTISAMPLE) in your setup code. This will activate multisampled rendering.

And that's all you need.

Alternatively, if you're using GL 3.x or have access to ARB_framebuffer_object, you can skip the context stuff and create a multisampled framebuffer. Your depth buffer and color buffer(s) must all have the same number of samples. I would suggest using renderbuffers for these, since you're still using fixed-function (and you can't texture from a multisample texture in the fixed-function pipeline).

You create multisampled renderbuffers for color and depth (they must have the same number of samples). You set them up in an FBO, and render into them (with glEnable(GL_MULTISAMPLE), of course). When you're done, you then use glBlitFramebuffer to blit from your multisample framebuffer into the back-buffer (which shouldn't be multisampled).

The problem with that, of course, is that GLSL is a pretty high barrier to entry for an OpenGL beginner.

Says who? There is nothing wrong with a beginner learning from shaders. Indeed, in my experience, such beginners often learn better, because they understand the details of what's going on more effectively.

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2  
"Why would you ever do antialiasing this way" It is a very old technique from OpenGL redbook version 1. Judging by performance of accumulation buffer I suspect the whole thing is completely unaccelerated - even on nvidia. I think redbook also had "depth of field" or some similar effect implemented using accumulation buffer as well... –  SigTerm May 9 '12 at 3:34
    
"Alternatively, if you're using GL 3.x or have access to ARB_framebuffer_object, you can skip the context stuff and create a multisampled framebuffer." Or EXT_framebuffer_multisample. –  JWWalker May 9 '12 at 6:32
    
"Why ..." I had no idea this was an awful way to get the job done. It's possible that I am coming at this from a rare perspective, but I doubt that I am unique. I wasn't particularly interested in GL stuff until CL/CUDA came along. With shared GL/CL contexts, the ability to do compute operations on arrays, and then have them treated as vertex buffer objects or textures such that you can actually have a visual representation of your high speed computations on the fly is nothing short of amazing. –  K. Brafford May 10 '12 at 3:55
    
When you're using GLUT for context creation you just need to add GLUT_MULTISAMPLE to your call to glutInitDisplayMode. –  Elmar Zander Feb 5 '13 at 17:24

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