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I'm writing crossplatform application. It should run on Android devices.
I want to use dFdx/dFdy for antialiasing. But, unfortunately, glsl es 2.0 does not support derivatives.

Can I replace dFdx/dFdy with something? I.E. 1/sprite_width, 1/sprite_height in screen pixels.

As I said, I need this to work on android devices. And I saw that my device support GL_OES_standard_derivatives, which allow it to use this functions. Does all android opengl es 2.0 devices support it?

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  • Amazon Fire TV Stick Gen1 does not support the GL_OES_standard_derivatives extension.
    – mchiasson
    Apr 15, 2017 at 18:33

1 Answer 1

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As I said many Opengl ES 2.0 devices support GL_OES_standard_derivatives extension.
But for thoose who don't, I made this workaround:

float myFunc(vec2 p){
return p.x*p.x - p.y; // that's our function. We want derivative from it.
}


// this calculated in vertex shader
// width/height = triangle/quad width/height in px;
vec2 pixel_step = vec2(1/width, 1/height);       

float current = myFunc(texCoord);
float dfdx = myFunc(texCoord + pixel_step.x) - current;
float dfdy = myFunc(texCoord + pixel_step.y) - current;

float fwidth = abs(dx) + abs(dy);       // from khronos doc #http://www.khronos.org/registry/gles/extensions/OES/OES_standard_derivatives.txt

P.S. I get very close results to the glsl built ins, A little bit more blurry (in my shader). To fix this I added multiply pixel_step on 1/1.75. If someone knows why, let me know.

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  • I also need something similar, specifically a fwidth() replacement. Could you clarify your replacement? Specifically where "dx" and "dy" variables come from. Also the existing shader I have used the fwidth function with one parameter: float dist = texture2D(u_texture, vTexCoord).a; float width = fwidth(dist); I am not sure how this ties in with your variable.fwidth. Thanks,
    – darkflame
    Mar 7, 2015 at 18:52
  • Well, in my case there was some quad with known size (and it was screen-space size, in my particular case). The derivative is function grow (in other words difference between current f(x1) and next f(x2) ). We have x1 (thats value that comes from vertex shader), the x2=x1+1/width. Than I calculate myFunc value at current pixel value (x1), and than calculate myFunc at next (x2). Then got the difference.
    – tower120
    Mar 9, 2015 at 17:07
  • This is awesome! I used this in conjunction with Loop and Blinn's signed distance shader, I just needed to wrap your derivative up in a vec2 with the undifferentiated axis set to zero. Thanks a bunch!
    – Mapsy
    Jul 8, 2016 at 17:02

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