# OpenGL get 3D coordinates of nearest world 3D point to the current mouse Location

in an OpenGL context, I have seen it is possible to convert mouse coordinates to 3D world coordinates (e.g. MFC with Opengl get 3d coordinate from 2d coordinate of mouse). However, this does not work when I have simply a set of `GLPoint`s and lots of empty space: when I'm hovering the mouse over empty space, the 3D coordinates have no meaning.

How can I get the coordinates of the nearest 3D point to my mouse position?

• What point would that be? If you point your finger towards the empty sky, is the "nearest" point at your fingertip or at the end of the universe or somewhere inbetween? Commented Apr 28, 2015 at 7:33
• @molbdnilo I was thinking this test could be implemented in the xy plane only. If I cast a ray starting from the xy mouse position and return all points inside a cilinder of n pixels from z=[0.0, 1.0] with some fixed radius (in xy) Commented Apr 28, 2015 at 7:38
• Well, OpenGL is not a scene graph. It draws pixels on the screen and that's it. So whatever you do, OpenGL is just a tool to help you get there. Next non void point closest to a click into a window? That's a image space search problem. In theory you'd spiral outwards (in image space) from the clicked point looking for a non void pixel. Commented Apr 28, 2015 at 8:24
• if you want to use this on OpenGL side instead of CPU then you can take the depth buffer as texture and blur it (ignoring clear depth values) so the depth coordinates will bleed into all empty areas of the screen. Then simply use that instead of the rendered image for mouse coordinate ... Commented Sep 10, 2015 at 7:38

The `gluUnProject` function is convenient way of doing this and provides a parameter for this `winZ`. 0.0 would find the 3D point at the near plane and 1.0 would find it at the far plane.
``````gluUnProject(winX, winY, winZ, model, proj, view, objX, objY, objZ);
Note: If `gluUnProject` is not available you can figure out the same thing pretty easily with matrices. source here