matrix/shaders/wgsl/stripePass.wgsl

[[block]] struct Config {
	ditherMagnitude : f32;
	backgroundColor : vec3<f32>;
};

[[block]] struct Time {
	seconds : f32;
	frames : i32;
};

[[group(0), binding(0)]] var<uniform> config : Config;
[[group(0), binding(1)]] var<uniform> time : Time;
[[group(0), binding(2)]] var linearSampler : sampler;
[[group(0), binding(3)]] var tex : texture_2d<f32>;
[[group(0), binding(4)]] var bloomTex : texture_2d<f32>;
[[group(0), binding(5)]] var stripeTexture : texture_2d<f32>;
[[group(0), binding(6)]] var outputTex : texture_storage_2d<rgba8unorm, write>;

struct ComputeInput {
	[[builtin(global_invocation_id)]] id : vec3<u32>;
};

let PI : f32 = 3.14159265359;

fn randomFloat( uv : vec2<f32> ) -> f32 {
	let a = 12.9898;
	let b = 78.233;
	let c = 43758.5453;
	let dt = dot( uv, vec2<f32>( a, b ) );
	let sn = dt % PI;
	return fract(sin(sn) * c);
}

[[stage(compute), workgroup_size(32, 1, 1)]] fn computeMain(input : ComputeInput) {

	// Resolve the invocation ID to a texel coordinate
	var coord = vec2<i32>(input.id.xy);
	var screenSize = textureDimensions(tex);

	if (coord.x >= screenSize.x) {
		return;
	}

	var uv = vec2<f32>(coord) / vec2<f32>(screenSize);

	var color = textureSampleLevel( stripeTexture, linearSampler, uv, 0.0 ).rgb;

	// Combine the texture and bloom
	var brightness = min(1.0, textureSampleLevel( tex, linearSampler, uv, 0.0 ).r * 2.0);
	brightness = brightness + textureSampleLevel( bloomTex, linearSampler, uv, 0.0 ).r;

	// Dither: subtract a random value from the brightness
	brightness = brightness - randomFloat( uv + vec2<f32>(time.seconds) ) * config.ditherMagnitude;

	textureStore(outputTex, coord, vec4<f32>(color * brightness + config.backgroundColor, 1.0));
}