1

I'm trying to achieve the following task:

  • I've a grid (plan) of NxM points
  • I've a texture which each pixel represents a force field for a position X,Y
  • I would like to iteratively update the initial grid using the force field texture (and a shader)

I guess we might quite easily do this using a "geometry shader" however those are not present in WebGL. Therefore, how could I use a GLSL driven program in order to update the position of the vertexes in my grid ? As I understood, a regular vertex shader do transform the source to something else in one pass, now is there a way to feed this output back in the shader during the next iteration ?

[edit] A possible way I can see right now could be to use a fragment shader which result could then be stored in a texture that I might reinject in the next step.

2

Yes, use a fragment shader. Store your grid's state in a texture (for most convenience, a floating-point texture, though that requires an extension), and use a fragment shader to compute a new texture which is the next iteration. Then when actually drawing, a vertex shader reads the texture to determine the vertex coordinates to display.

I've implemented a particle system using this technique. Here's the fragment shader which does the state updates, so you can get an idea of how it works. For each particle, a pair of adjacent texels (providing 8 floats) store its position and velocity.

#ifdef GL_ES
precision highp float;
#endif

uniform sampler2D uState;
uniform float uResolution;
uniform float uDT;
uniform float uHarmonicAccel;

vec4 lookup(float offset) {
  return texture2D(uState, (gl_FragCoord.xy + vec2(offset, 0.0)) / uResolution);
}

void main(void) {
  bool updatingPosition = mod(gl_FragCoord.x, 2.0) < 1.0;
  vec4 posp, velp;
  if (updatingPosition) {
    posp = lookup(0.0);
    velp = lookup(1.0);
  } else {
    posp = lookup(-1.0);
    velp = lookup(0.0);
  }
  vec3 pos = vec3(posp);
  vec3 vel = vec3(velp);

  // velocity update is applied to position as well
  vel += uHarmonicAccel * uDT * normalize(pos);

  if (updatingPosition) {
    gl_FragColor = vec4(pos + uDT * vel, posp[3]);
  } else {
    gl_FragColor = vec4(vel, velp[3]);
  }
}
  • Using a N x 2 x Vec4 dimensional texture would even be easier to handle than 2 adjacent texels. Good trick btw :-) – Flavien Volken Mar 4 '13 at 14:58
  • @FlavienVolken That's being cautious about using a texture which is extremely large in one dimension. I get the impression such may not be supported sometimes. – Kevin Reid Mar 4 '13 at 15:04

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