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I am currently working on a video player for Windows using OpenGL. It works great, but one of my main goal is accuracy. That is, the image displayed should be exactly the image that was saved as a video.

Taking away everything video/file/input related, I have something along these lines as my glutDisplayFunc:

GLubyte frame[256*128*4]; // width*height*RGBA_size
for (int i=0;i<256*128;i++)
   frame[i*4] = 0x00; // R
   frame[i*4+1] = 0xAA; // G
   frame[i*4+2] = 0x00; // B
   frame[i*4+3] = 0x00; // A

Combined with the code for glut..

glutInit(&argc, argv);
glutInitWindowSize(256, 128);
glPixelZoom(1,-1); // use top-to-bottom display

This is pretty straightforward and a huge simplification of the actual code. A frame with a RGB value #00AA00 is created and drawn with glDrawPixels. As expected, the output is a green window. On first glance all seems good.

But when I use a tool such as to know the exact RGB value of a pixel, I realize that not all of the pixels are displayed as #00AA00. Some pixels will have a value of #00A900. It will be the case of the first pixel in the top-left corner, as well as the 3rd, the 5th and so on on the same line and for every uneven line.

Now it can't be a problem with Instant Eyedropper or with Windows since other programs output the right color for the same file.

Now my question: Could it be possible that glDrawPixels somehow changes the pixels values, maybe as a way to go faster? I would expect such a function to display exactly what we input in it, so I'm not quite sure what to think of it.

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I see that my question was edited by someone (small edit I guess since I can't find the change). I'm new to this site and I would like to know why would there be an edit? –  Alex Millette Jun 5 '12 at 16:07

1 Answer 1

up vote 1 down vote accepted

OpenGL has enabled color dithering by default. So your GPU actually may perform color dithering for some reason. Try disabling it with glDisable(GL_DITHER);. Also be aware of colour management issues.

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Wow, simply disabling GL_DITHER fixed the problem. Thanks! Any idea why this option is enabled by default? What's his use? –  Alex Millette Jun 5 '12 at 16:03
"Dithering is a process whereby a limited colour palette is used to trick the eye into thinking there are more colours (or detail) within am image. A good example are old 16 colour computer games, where different combinations where used to make it look like there where more colours. A lot of printers use dithering to make an image look better." It's a bit weird that OpenGL enables it for 32-bits color application... I guess it's useful with lower graphics, but with most systems nowadays it seems wasteful. –  Alex Millette Jun 5 '12 at 16:14
It's enabled by default, because it's written so in the OpenGL specification and that is, because the 8 bit per channel of most display devices offer too low dynamic range to draw solid gradients without generating banding artifacts. Using dithering those artifacts can be avoided. –  datenwolf Jun 5 '12 at 16:16

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