I have a triangle in 2D space. I have screen space coordinates of each vertex, and I have attribute values of each vertex.

How can I calculate dFdx / dFdy for those attributes? In other words, how will change attribute from screen pixel to pixel.

//fragment shader
varrying vec2 myAttr;

void main(void)
  vec2 px = dFdx(myAttr);
  vec2 py = dFdy(myAttr);

I want to get px, py. I need to know delta(grow) of myAttr from next pixel for x and y axis. I need formula /algorithm how to calculate them manually (for example for cases when hardware does not support derivatives).

P.S. Attribute value linear interpolated between 3 vertices (according to OpenGL doc).

  • I don't get what you're asking. You already have the GLSL builtin functions dFdx, dFdy in your code. What more do you want? An explanation of how to calculate it manually? – datenwolf Sep 4 '14 at 14:51
  • This is in GLSL :) I need formula to calculate them manually/on CPU. – tower120 Sep 4 '14 at 15:42
  • 1
    This thread on the opengl forums asks a very similar question: opengl.org/discussion_boards/showthread.php/…. – user3256930 Sep 4 '14 at 16:26
  • derivative means rate of change per unit. Your unit in here is distance between pixels. Change is the difference of function value at adjacent points. So this must be just a simple approximated division with one of higher order formulas like a "5 point stencil" but on three points instead. – huseyin tugrul buyukisik Sep 4 '14 at 16:45
  • @huseyin tugrul buyukisik - Well yes. And I understand how to do linear interpolation between 2 points. But I can't figure out, how to interpolate between 3. – tower120 Sep 4 '14 at 16:47

assuming your vertex are structured like this:

struct vertex
  double x; // screenspace x coordinate
  double y; // screenspace y coordinate
  double a; // your attribute

The derivation you're looking for are calculated like this:

      d    = (v0.x - v2.x) * (v1.y - v2.y) -
             (v1.x - v2.x) * (v0.y - v2.y);

      dfdx = ((v0.a - v2.a) * (v1.y - v2.y) -
              (v1.a - v2.a) * (v0.y - v2.y)) / d;

      dfdy = ((v0.a - v2.a) * (v1.x - v2.x) -
              (v1.a - v2.a) * (v0.x - v2.x)) / d;

Note that this equation becomes unstable as d approaches zero. It will also cause a divide by zero if d is exactly zero. This is not a problem in practice because in this case the triangle also has a area of zero and nothing needs to be rendered.

  • Wow. Exactly what I need. You found those equations by yourself, or this is some known way to get them? I mean, if this is some known thing, can I read about this somewhere? – tower120 Sep 4 '14 at 19:03
  • And, it seems that attribute can be vector in your equations. Am I right? Or better calculate it per component? – tower120 Sep 4 '14 at 19:04
  • And what is "d"? – tower120 Sep 4 '14 at 19:05
  • @tower120 d is just a common factor that I pulled out of the equation to make them simpler. If I remember right it is twice the area of the triangle. Yes, you can replace the scalar a with a vector of attributes. That will work just as well. I don't know where I got the equations from but I didn't come up with them by myself. As far as I remember they are derived by starting with barycentric coordinates, then solving for a single interpolated value and simplifying the equations. – Nils Pipenbrinck Sep 4 '14 at 19:18
  • I cut and pasted the equations more or less directly from a old triangle rasterizer code that I've written back in the 90th. :-) – Nils Pipenbrinck Sep 4 '14 at 19:19

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