Is it possible to change the value of an attribute in the shader and have this reflected in the buffer for the next frame render?

So for example change the position of a vertex in the vertex shader and send this new value back to the javascript buffer object?

Code sample below:

attribute vec3 newPosition;
attribute vec3 divideVal;

void main() {
    vec3 difference = newPosition - position;

    velocity = difference / divideVal;

    position += velocity;

    vec4 mvPosition = modelViewMatrix * vec4(position, 1.0);

    gl_PointSize = size * (sizeMultipler / -mvPosition.z);

    gl_Position = projectionMatrix * mvPosition;


Right now I do this in the JS itself, but understand it will be faster if I move as much calculation as I can to the shaders? This is my current JS:

const positions = this.geometry.attributes.position.array;
const newPositions = this.geometry.attributes.newPosition.array;

for (let i = 0, i3 = 0; i < this.numParticles; i++, i3 += 3) {
    const velocity = [newPositions[i3] - positions[i3], newPositions[i3 + 1] - positions[i3 + 1], newPositions[i3 + 2] - positions[i3 + 2]];

    if (velocity[0] || velocity[1] || velocity[2]) {
        const minReset = 1;

        velocity[0] = velocity[0] / 60;
        velocity[1] = velocity[1] / 60;
        velocity[2] = velocity[2] / 60;

        positions[i3] = positions[i3] + velocity[0];
        positions[i3 + 1] = positions[i3 + 1] + velocity[1];
        positions[i3 + 2] = positions[i3 + 2] + velocity[2];
  • yeah but it has nothing to do with glsl. At a three.js level its much more abstract. You can do this by updating both Geometry or BufferGeometry, share more code?
    – pailhead
    Feb 11, 2017 at 1:06
  • You can use webgl2 transform feedback for that (here is a very simple example: ibiblio.org/e-notes/webgl/gpu/bounce.htm), but I'm not sure how you can hook this up with three.js, maybe using object.onBeforeRender. Feb 11, 2017 at 20:50

1 Answer 1


I found out how to do this.

Using a concept called FBO Simulation, I created a simulation shader, which computes the calculations in its glsl shaders, and then rather than displaying the results on screens, writes them to a texture. I then read from that texture in the "real" shader and wrote the results to the screen. This also allowed me to compare different output textures to work out velocity and size differences of particles between frames.

You can read more about it being discussed here: https://github.com/mrdoob/three.js/issues/1183

Example: http://barradeau.com/blog/?p=621

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