2022-01-18 18:58:16 +00:00
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////////////////////////////////////////////////////////////////////////////////
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// Utilities
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////////////////////////////////////////////////////////////////////////////////
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var<private> rand_seed : vec2<f32>;
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fn rand() -> f32 {
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rand_seed.x = fract(cos(dot(rand_seed, vec2<f32>(23.14077926, 232.61690225))) * 136.8168);
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rand_seed.y = fract(cos(dot(rand_seed, vec2<f32>(54.47856553, 345.84153136))) * 534.7645);
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return rand_seed.y;
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}
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////////////////////////////////////////////////////////////////////////////////
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// Vertex shader
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////////////////////////////////////////////////////////////////////////////////
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struct RenderParams {
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2022-03-28 14:31:22 +00:00
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modelViewProjectionMatrix : mat4x4<f32>,
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right : vec3<f32>,
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up : vec3<f32>,
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2022-01-18 18:58:16 +00:00
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};
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2022-01-19 22:46:57 +00:00
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@binding(0) @group(0) var<uniform> render_params : RenderParams;
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2022-01-18 18:58:16 +00:00
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struct VertexInput {
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2022-03-28 14:31:22 +00:00
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@location(0) position : vec3<f32>,
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@location(1) color : vec4<f32>,
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@location(2) quad_pos : vec2<f32>, // -1..+1
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2022-01-18 18:58:16 +00:00
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};
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struct VertexOutput {
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2022-03-28 14:31:22 +00:00
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@builtin(position) position : vec4<f32>,
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@location(0) color : vec4<f32>,
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@location(1) quad_pos : vec2<f32>, // -1..+1
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2022-01-18 18:58:16 +00:00
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};
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2022-01-19 22:46:57 +00:00
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@stage(vertex)
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2022-01-18 18:58:16 +00:00
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fn vs_main(in : VertexInput) -> VertexOutput {
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var quad_pos = mat2x3<f32>(render_params.right, render_params.up) * in.quad_pos;
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var position = in.position + quad_pos * 0.01;
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var out : VertexOutput;
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out.position = render_params.modelViewProjectionMatrix * vec4<f32>(position, 1.0);
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out.color = in.color;
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out.quad_pos = in.quad_pos;
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return out;
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}
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////////////////////////////////////////////////////////////////////////////////
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// Fragment shader
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////////////////////////////////////////////////////////////////////////////////
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2022-01-19 22:46:57 +00:00
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@stage(fragment)
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fn fs_main(in : VertexOutput) -> @location(0) vec4<f32> {
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2022-01-18 18:58:16 +00:00
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var color = in.color;
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// Apply a circular particle alpha mask
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color.a = color.a * max(1.0 - length(in.quad_pos), 0.0);
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return color;
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}
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////////////////////////////////////////////////////////////////////////////////
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// Simulation Compute shader
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////////////////////////////////////////////////////////////////////////////////
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struct SimulationParams {
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2022-03-28 14:31:22 +00:00
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deltaTime : f32,
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seed : vec4<f32>,
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2022-01-18 18:58:16 +00:00
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};
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struct Particle {
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2022-03-28 14:31:22 +00:00
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position : vec3<f32>,
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lifetime : f32,
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color : vec4<f32>,
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velocity : vec3<f32>,
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2022-01-18 18:58:16 +00:00
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};
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struct Particles {
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2022-03-28 14:31:22 +00:00
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particles : array<Particle>,
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2022-01-18 18:58:16 +00:00
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};
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2022-01-19 22:46:57 +00:00
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@binding(0) @group(0) var<uniform> sim_params : SimulationParams;
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@binding(1) @group(0) var<storage, read_write> data : Particles;
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@binding(2) @group(0) var texture : texture_2d<f32>;
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2022-01-18 18:58:16 +00:00
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2022-01-19 22:46:57 +00:00
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@stage(compute) @workgroup_size(64)
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fn simulate(@builtin(global_invocation_id) GlobalInvocationID : vec3<u32>) {
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2022-01-18 18:58:16 +00:00
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rand_seed = (sim_params.seed.xy + vec2<f32>(GlobalInvocationID.xy)) * sim_params.seed.zw;
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let idx = GlobalInvocationID.x;
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var particle = data.particles[idx];
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// Apply gravity
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particle.velocity.z = particle.velocity.z - sim_params.deltaTime * 0.5;
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// Basic velocity integration
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particle.position = particle.position + sim_params.deltaTime * particle.velocity;
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// Age each particle. Fade out before vanishing.
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particle.lifetime = particle.lifetime - sim_params.deltaTime;
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particle.color.a = smoothStep(0.0, 0.5, particle.lifetime);
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// If the lifetime has gone negative, then the particle is dead and should be
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// respawned.
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if (particle.lifetime < 0.0) {
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// Use the probability map to find where the particle should be spawned.
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// Starting with the 1x1 mip level.
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var coord = vec2<i32>(0, 0);
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for (var level = textureNumLevels(texture) - 1; level > 0; level = level - 1) {
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// Load the probability value from the mip-level
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// Generate a random number and using the probabilty values, pick the
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// next texel in the next largest mip level:
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//
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// 0.0 probabilites.r probabilites.g probabilites.b 1.0
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// | | | | |
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// | TOP-LEFT | TOP-RIGHT | BOTTOM-LEFT | BOTTOM_RIGHT |
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//
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let probabilites = textureLoad(texture, coord, level);
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let value = vec4<f32>(rand());
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let mask = (value >= vec4<f32>(0.0, probabilites.xyz)) & (value < probabilites);
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coord = coord * 2;
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coord.x = coord.x + select(0, 1, any(mask.yw)); // x y
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coord.y = coord.y + select(0, 1, any(mask.zw)); // z w
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}
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let uv = vec2<f32>(coord) / vec2<f32>(textureDimensions(texture));
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particle.position = vec3<f32>((uv - 0.5) * 3.0 * vec2<f32>(1.0, -1.0), 0.0);
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particle.color = textureLoad(texture, coord, 0);
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particle.velocity.x = (rand() - 0.5) * 0.1;
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particle.velocity.y = (rand() - 0.5) * 0.1;
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particle.velocity.z = rand() * 0.3;
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particle.lifetime = 0.5 + rand() * 2.0;
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}
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// Store the new particle value
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data.particles[idx] = particle;
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}
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struct UBO {
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width : u32,
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2022-01-18 18:58:16 +00:00
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};
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struct Buffer {
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2022-03-28 14:31:22 +00:00
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weights : array<f32>,
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2022-01-18 18:58:16 +00:00
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};
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2022-01-19 22:46:57 +00:00
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@binding(3) @group(0) var<uniform> ubo : UBO;
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@binding(4) @group(0) var<storage, read> buf_in : Buffer;
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@binding(5) @group(0) var<storage, read_write> buf_out : Buffer;
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@binding(6) @group(0) var tex_in : texture_2d<f32>;
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@binding(7) @group(0) var tex_out : texture_storage_2d<rgba8unorm, write>;
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2022-01-18 18:58:16 +00:00
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////////////////////////////////////////////////////////////////////////////////
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// import_level
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//
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// Loads the alpha channel from a texel of the source image, and writes it to
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// the buf_out.weights.
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////////////////////////////////////////////////////////////////////////////////
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2022-01-19 22:46:57 +00:00
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@stage(compute) @workgroup_size(64)
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fn import_level(@builtin(global_invocation_id) coord : vec3<u32>) {
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2022-01-18 18:58:16 +00:00
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_ = &buf_in;
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let offset = coord.x + coord.y * ubo.width;
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buf_out.weights[offset] = textureLoad(tex_in, vec2<i32>(coord.xy), 0).w;
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}
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////////////////////////////////////////////////////////////////////////////////
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// export_level
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//
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// Loads 4 f32 weight values from buf_in.weights, and stores summed value into
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// buf_out.weights, along with the calculated 'probabilty' vec4 values into the
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// mip level of tex_out. See simulate() in particle.wgsl to understand the
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// probability logic.
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////////////////////////////////////////////////////////////////////////////////
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2022-01-19 22:46:57 +00:00
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@stage(compute) @workgroup_size(64)
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fn export_level(@builtin(global_invocation_id) coord : vec3<u32>) {
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if (all(coord.xy < vec2<u32>(textureDimensions(tex_out)))) {
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let dst_offset = coord.x + coord.y * ubo.width;
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let src_offset = coord.x*2u + coord.y*2u * ubo.width;
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let a = buf_in.weights[src_offset + 0u];
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let b = buf_in.weights[src_offset + 1u];
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let c = buf_in.weights[src_offset + 0u + ubo.width];
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let d = buf_in.weights[src_offset + 1u + ubo.width];
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let sum = dot(vec4<f32>(a, b, c, d), vec4<f32>(1.0));
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buf_out.weights[dst_offset] = sum / 4.0;
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let probabilities = vec4<f32>(a, a+b, a+b+c, sum) / max(sum, 0.0001);
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textureStore(tex_out, vec2<i32>(coord.xy), probabilities);
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}
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}
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