I'm using SharpDX to write a "3D soft engine from scratch" as per a tutorial on MSDN. However, I cannot get my expected and actual fields of view to match up.

My now-simplified world comprises of four 3D vertices with Z=0 at (0,1,0);(0,-1,0);(1,0,0);(-1,0,0). I place the camera at (0,0,2) and look at (0,0,0) with (0,1,0) up. I setup the projection matrix with a FOV of 90 degrees (PI/2 radians) and prepare to render each of the four vertices by calling Vector3.TransformCoordinate(Vector3, Matrix).

My understanding is that FOV is used to calculate a scale factor 1/TAN(FOV/2) that can be applied to every (Y,Z) pair such that y' = y * scale / z. Similarly, given the aspect ratio, as scale is calculated for (X,Z) pairs too.

For a (vertical) FOV of 90 degrees and camera distance 2, I would have expected all of my vertices to be reasonably far from the edges of the bitmap. However, the top and bottom vertices have Y-values of -0.49 and +0.49 which means that they'd be practically touching the screen boundary if rendered. Have I misunderstood the concept of FOV? The results I'm seeing are what I'd expect from a FOV of about 53 degrees. It's as though the tangent is being halved before its inverse is taken...

I first tried this with the camera at (0,0,1) and FOV of 90 degrees because I felt sure that the scale factor would be 1 (1/TAN(90/2) = 1) but the vertices were off screen.

  • 1
    0.49 is not at the screen edge. The viewport ranges from -1 to 1 for ´x` and y. And therefore, the values seem reasonable. For a fov of 90°, you see the range -2 to 2 at a z-distance of 2. Commented Apr 20, 2014 at 20:25
  • Thanks Nico. That matches exactly with my measurements. I had just accepted the tutorial code without thinking. I think you should add this as an answer, not just a comment.
    – Jono
    Commented Apr 20, 2014 at 20:41

1 Answer 1


The perspective transformation transforms coordinates from camera space to clip space.

Camera space is an ordinary cartesian system with the camera as the origin.

Clip space is a temporary space that is afterwards mapped to the viewport. Both x and y coordinates are in the range [-1, 1] for points that are within the viewport.

  • Thanks, Nico. Is there any meaning to the z value in clip space, or can it safely be discarded?
    – Jono
    Commented Apr 23, 2014 at 20:27
  • Usually this is the value that is written to the z-buffer. A value of 0 means that the pixel is znear units far from the camera (only regarding the distance along the view direction), a value of 1 means that the pixel is zfar units away. So basically it is the depth of the pixel, but it's not linear. You can discard it if you don't need the depth. Commented Apr 24, 2014 at 9:47

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