4

I'm using

worldview_inverse * (projection_inverse * vector)

to transform screen space coordinates into world space coordinates. I assumed that

(x,y,1,1)

would transform to a point on the far plane, while

(x,y,-1,1)

transforms to a point on the near plane, and connecting the line I can query all objects in the view frustum that intersect the line. After the transformation I divide the resulting points by their respective .w component. This works for the far-plane, but the point on the near plane somehow gets transformed to the world space origin.

I think this has to do with the w components of 1 I'm feeding into the inverse projection, because usually it is 1 before projection, not after, and I'm doing the reverse projection. What am I doing wrong?

2
  • I think you need some more sample code. Especially the part that is setting your near point to the origin
    – Neil N
    Feb 26, 2009 at 22:22
  • Also, could you provide the projection matrix you are using? Is it offset?
    – Coincoin
    Feb 26, 2009 at 22:28

1 Answer 1

4

I know this is only a workaround, but you can deduce the near plane point by only using the far point and the viewing position.

near_point = view_position
           + (far_point - view_position) * (near_distance / far_distance)

As for you real problem. First, don't forget to divide by W! Also, depending on your projection matrix, have you tried (x,y,0,1) as opposed to z=-1.

near_point = worldview_inverse * (projection_inverse * vector)
near_point /= near_point.W
2
  • yes, I considered this, but now I'm interested in the math side of the original problem ;)
    – heeen
    Feb 26, 2009 at 22:25
  • Hehe, yeah sorry about that. I updated my answer to try to tackle your real problem.
    – Coincoin
    Feb 26, 2009 at 22:45

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