I have have been reading The Matrix has You trying to understand the perpective matrix.

This tutorial uses frustum scale fator S to define the perspective matrix as below .

Xclip = S * Xcamera
Yclip = S * Ycamera

But there are other tutorials like OpenGL Projection Matrix which define the

xclip = 2 * n / (r-l)
yclip = 2 * n / (t-b)

Could some one please help me understand if they are same ?

1 Answer 1


When you assign S=2n/(r-l) or S=2n/(t-b) respectively, you end up with the same equations (don't forget the multiplication with x_camera and y_camera in the second case). In the first equations, the scale factor is just precalculated from other constants. Note that the scale factor is usually different for x and y, because the view frustum's base is not a square.

  • But S is calculated differently in the tutorial . Its FOV* pi/180 . FOV = field of view angle in degrees . Will this give the same value as the second equations ?
    – Chandan
    Commented Jul 14, 2014 at 16:16
  • 1
    Are you sure that this is the accurate formula (reference?). This seems unreasonable in any way. Usually, this would be something like 1/tan(fov/2). Then we know that 2 * n * tan(fov/2) = t - b. Re-arranging this equation yields S = 2 * n / (t - b) = 1 / tan(fov/2) Commented Jul 14, 2014 at 17:10
  • This is the reference arcsynthesis.org/gltut/Positioning/Tut06%20Translation.html The method name is CalcFrustumScale()
    – Chandan
    Commented Jul 14, 2014 at 21:24
  • I am confused since I don't see this formula any where else . But I see the formula 2 * n / (t - b) = 1 / tan(fov/2) in almost all the other tutorias
    – Chandan
    Commented Jul 14, 2014 at 21:41
  • CalcFrustumScale() returns 1 / tan(fov/2). The formula tan(fov/2) = (t - b) / 2 / n is basically the pure definition of the tangens applied to the frustum looked at from above (triangle positioned at eye). Commented Jul 15, 2014 at 7:12

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