Is there a way to extract a point cloud from a rendered 3D Scene (using OPENGL)?
in Detail:
The input should be a rendered 3D Scene.
The output should be e.g a three dimensional array with vertices(x,y,z).
Mission possible or impossible?
Is there a way to extract a point cloud from a rendered 3D Scene (using OPENGL)? in Detail: The input should be a rendered 3D Scene. The output should be e.g a three dimensional array with vertices(x,y,z). Mission possible or impossible? 


If I understand correctly, you want to deconstruct a final rendering (2D) of a 3D scene. In general, there is no capability builtin to OpenGL that does this. There are however many papers describing approaches to analyzing a 2D image to generate a 3D representation. This is for example what the Microsoft Kinect does to some extent. Look at the papers presented at previous editions of SIGGRAPH for a starting point. Many implementations probably make use of the GPU (OpenGL, DirectX, CUDA, etc.) to do their magic, but that's about it. For example, edgedetection filters to identify the visible edges of objects and histogram functions can run on the GPU. Depending on your application domain, you might be in for something near impossible or there might be a shortcut you can use to identify shapes and vertices. editI think you might have a misunderstanding of how OpenGL rendering works. The application produces and sends to OpenGL the vertices of triangles forming polygons and 3d objects. OpenGL then rasterizes (i.e. converts to pixels) these objects to form a 2d rendering of the 3d scene from a particular point of view with a particular field of view. When you say you want to retrieve a "point cloud" of the vertices, it's hard to understand what you want since you are responsible for producing these vertices in the first place! 


I think you should take your input data and manually multiply it by your transformation and modelview matrices. No need to use OpenGL for that, just some vector/matrices math. 


You now have a point cloud sampled from your conventional geometry using OpenGL. Apart from the readback from the GPU to the host, this will be very fast. Going further with this:


