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According to opengl spec 4.0 glDrawPixels is deprecated.

For cuda interoperability it seems best to use "opengl buffer objects". (An alternative could be textures or surfaces but these have caching/concurrency issues and are therefore unusable for my cuda kernel).

I simply want to create a cuda kernel which uses this mapped opengl buffer object and uses it as a "pixel array" or a piece of memory holding pixels, later the buffer is unmapped.

I then want the opengl program to draw the buffer object to the framebuffer. I would like to use an opengl api which is not deprecated.

What other ways/apis are there to draw a buffer object to the frame buffer ? (Also render buffers cannot be used since they probably have same issue as cuda arrays/caching issues, so this rules out framebuffer object/extension ?!?).

Is there a gap/missing functionality in opengl 4.0 now that glDrawPixels is deprecated ? Or is there an alternative ?

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I don't understand. Your first point states that OpenGL Buffer Objects are recommended for CUDA/OpenCL-OpenGL interop (and they are). Are you looking for other alternatives or is there some issue with that avenue? – ananthonline Jun 22 '12 at 21:35
    
The cuda manual mentions three solutions for cuda graphics interoperability with opengl: buffer objects, textures and render buffers. The manual later on mentions textures and render buffers have caching issues with reading/writing by multiple threads. Thus I come to the conclusion myself that the only option left is "buffer objects". The question is now how to "display a buffer object with opengl" ? – Skybuck Flying Jun 22 '12 at 21:53

glDrawPixels has been removed from GL 3.2 and above (it is not deprecated. Deprecated means "available but to be removed in the future"). It was removed because it's generally not a fast way to draw pixel data to the screen.

Your best bet is to use glTexSubImage2D to upload it to a texture, then draw that to the screen. Or blit it from the texture with glBlitFramebuffer.

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1. glTexSubImage2D could indeed be a solution. 2. glBlitFramebuffer is probably only for copieing between read and write framebuffers so this is not a solution. – Skybuck Flying Jun 22 '12 at 22:00
    
@SkybuckFlying: The glBlitFramebuffer part was an alternative to the drawing it to the screen. That is, you attach the texture that you uploaded the pixel data to an FBO, then blit it to the screen. You're going to be using glTexSubImage2D regardless; it's just a question of whether you're drawing a textured quad or blitting from the texture to the default framebuffer. – Nicol Bolas Jun 22 '12 at 22:17
    
Ok, I see now... I indeed experimented with glBlitFramebufferEXT when it was still an extension. I think it somewhat worked, can't remember exactly. There might have been issues with multi threading or maybe not... it's late and I have to go to bed so no time for searching an example on my drive to see how it worked. For now I'm probably avoiding framebuffers and simply using a texture to draw to default framebuffer, so far it seems to work nice. – Skybuck Flying Jun 23 '12 at 4:23
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@SkybuckFlying: That's not Wikipedia; that's the OpenGL Wiki. And what exactly isn't it clear on? – Nicol Bolas Jun 23 '12 at 4:30
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It's not clear how to specify the source and the destination in relation to fbo... it probably requires some additional api's in combination with glBlitFramebuffer something like glReadBuffer(...), glWriteBuffer(...) or something... This link contains much more info then the wiki link above: opengl.org/wiki/Framebuffer_Object – Skybuck Flying Jun 23 '12 at 4:32

It seems the only solution is the following:

  1. Create a "(opengl) pixel buffer object" which is hopefully the same as a "(opengl) (general) buffer object".

  2. Use the pixel buffer object for cuda interoperability. (If not possible, then try a general buffer object"

  3. Then either draw the pixel buffer object to a texture with tex* opengl api calls and then draw the texture to the default framebuffer. (This is probably a double copy, so probably the slowest method.)

  4. Or try and draw the pixel buffer object directly to the framebuffer. I am not sure if this requires a special framebuffer object/extension. (This might be faster if it can be done directly, just one copy).

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