#version 430 layout(local_size_x = 1, local_size_y = 1) in; // size of local work group - 1 pixel // gbuffer? layout(rgba32f, binding = 2) readonly uniform image2D _g0; layout(rgba32f, binding = 3) readonly uniform image2D _g1; // final output layout(rgba32f, binding = 0) uniform image2D img_output; // rgba32f defines internal format, image2d for random write to output texture uniform vec3 _skyColor = vec3(0.68,0.85,0.9); // TODO: some of these depend on each other!! need be be in this order for now c: #include func.glsl #include constants.glsl #include time.glsl #include sphere.glsl #include ray.glsl #include intersect.glsl #include random.glsl #include camera.glsl #include image.glsl // scene.glsl includes scene trace function #include scene.glsl #include lighting.glsl #include depth.glsl vec3 shade(inout Ray ray, RayHit hit) { if (hit.distance < INF) { switch (hit.material) { case MAT_SKY: break; case MAT_LAMBERT: scatterLambert(ray, hit); break; case MAT_CHROME: return scatterMetal(ray, hit); break; } } // sky color return _skyColor; } void main() { // base pixel colour for the image vec4 pixel = vec4(0.0, 0.0, 0.0, 1.0); ivec2 pixelCoords = ivec2(gl_GlobalInvocationID.xy); ivec2 dims = imageSize(img_output); vec2 uv = pixelUv(pixelCoords, dims); vec4 g[2]; // load data from first pass g[0] = imageLoad(_g0, ivec2(gl_GlobalInvocationID.xy)); float depth = g[0].w; vec3 normal = g[0].xyz*2.0-1.0; // unpack normal packaged into texture g[1] = imageLoad(_g1, ivec2(gl_GlobalInvocationID.xy)); vec3 albedo = g[1].xyz; // create a ray from the uv Ray ray = createCameraRay(uv); RayHit firstHit; firstHit.position = ray.origin+ray.direction*depth; firstHit.distance = depth; firstHit.normal = normal; firstHit.albedo = albedo; int sky = depth >= INF ? 1 : 0; int bounces = (1-sky) * BOUNCES; pixel.xyz = mix(pixel.xyz, _skyColor, sky); // sample int samples = 2; for (int i = 0; i < samples; i++) { float sampleDepth = 0; // trace the ray's path around the scene for (int j = 0; j < bounces; j++) { RayHit hit = trace(ray); depth = getLogarithmicDepth(ray.distance); pixel.xyz += ray.energy * shade(ray, hit); if (length(ray.energy) < 0.001) break; } depth += sampleDepth / float(samples); } // include the first sample we took samples++; // gamma correction float scale = 1.0 / samples; pixel.xyz = sqrt(scale * pixel.xyz); pixel.xyz = mix(pixel.xyz, vec3(1.0), depth); pixel.xyz = texture(_noise, uv*.5-.5).xyz; // output to a specific pixel in the image imageStore(img_output, ivec2(gl_GlobalInvocationID.xy), pixel); }