246 lines
7.3 KiB
GLSL
246 lines
7.3 KiB
GLSL
#[compute]
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#version 450
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VERSION_DEFINES
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layout(local_size_x = 8, local_size_y = 8, local_size_z = 1) in;
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layout(rgba16f, set = 0, binding = 0) uniform restrict readonly image2D source_diffuse;
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layout(r32f, set = 0, binding = 1) uniform restrict readonly image2D source_depth;
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layout(rgba16f, set = 1, binding = 0) uniform restrict writeonly image2D ssr_image;
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#ifdef MODE_ROUGH
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layout(r8, set = 1, binding = 1) uniform restrict writeonly image2D blur_radius_image;
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#endif
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layout(rgba8, set = 2, binding = 0) uniform restrict readonly image2D source_normal_roughness;
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layout(set = 3, binding = 0) uniform sampler2D source_metallic;
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layout(push_constant, binding = 2, std430) uniform Params {
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vec4 proj_info;
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ivec2 screen_size;
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float camera_z_near;
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float camera_z_far;
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int num_steps;
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float depth_tolerance;
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float distance_fade;
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float curve_fade_in;
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bool orthogonal;
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float filter_mipmap_levels;
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bool use_half_res;
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uint metallic_mask;
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mat4 projection;
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}
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params;
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vec2 view_to_screen(vec3 view_pos, out float w) {
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vec4 projected = params.projection * vec4(view_pos, 1.0);
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projected.xyz /= projected.w;
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projected.xy = projected.xy * 0.5 + 0.5;
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w = projected.w;
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return projected.xy;
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}
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#define M_PI 3.14159265359
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vec3 reconstructCSPosition(vec2 S, float z) {
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if (params.orthogonal) {
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return vec3((S.xy * params.proj_info.xy + params.proj_info.zw), z);
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} else {
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return vec3((S.xy * params.proj_info.xy + params.proj_info.zw) * z, z);
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}
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}
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void main() {
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// Pixel being shaded
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ivec2 ssC = ivec2(gl_GlobalInvocationID.xy);
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if (any(greaterThanEqual(ssC, params.screen_size))) { //too large, do nothing
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return;
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}
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vec2 pixel_size = 1.0 / vec2(params.screen_size);
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vec2 uv = vec2(ssC) * pixel_size;
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uv += pixel_size * 0.5;
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float base_depth = imageLoad(source_depth, ssC).r;
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// World space point being shaded
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vec3 vertex = reconstructCSPosition(uv * vec2(params.screen_size), base_depth);
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vec4 normal_roughness = imageLoad(source_normal_roughness, ssC);
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vec3 normal = normal_roughness.xyz * 2.0 - 1.0;
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normal = normalize(normal);
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normal.y = -normal.y; //because this code reads flipped
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vec3 view_dir = normalize(vertex);
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vec3 ray_dir = normalize(reflect(view_dir, normal));
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if (dot(ray_dir, normal) < 0.001) {
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imageStore(ssr_image, ssC, vec4(0.0));
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return;
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}
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//ray_dir = normalize(view_dir - normal * dot(normal,view_dir) * 2.0);
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//ray_dir = normalize(vec3(1.0, 1.0, -1.0));
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////////////////
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// make ray length and clip it against the near plane (don't want to trace beyond visible)
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float ray_len = (vertex.z + ray_dir.z * params.camera_z_far) > -params.camera_z_near ? (-params.camera_z_near - vertex.z) / ray_dir.z : params.camera_z_far;
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vec3 ray_end = vertex + ray_dir * ray_len;
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float w_begin;
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vec2 vp_line_begin = view_to_screen(vertex, w_begin);
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float w_end;
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vec2 vp_line_end = view_to_screen(ray_end, w_end);
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vec2 vp_line_dir = vp_line_end - vp_line_begin;
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// we need to interpolate w along the ray, to generate perspective correct reflections
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w_begin = 1.0 / w_begin;
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w_end = 1.0 / w_end;
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float z_begin = vertex.z * w_begin;
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float z_end = ray_end.z * w_end;
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vec2 line_begin = vp_line_begin / pixel_size;
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vec2 line_dir = vp_line_dir / pixel_size;
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float z_dir = z_end - z_begin;
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float w_dir = w_end - w_begin;
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// clip the line to the viewport edges
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float scale_max_x = min(1.0, 0.99 * (1.0 - vp_line_begin.x) / max(1e-5, vp_line_dir.x));
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float scale_max_y = min(1.0, 0.99 * (1.0 - vp_line_begin.y) / max(1e-5, vp_line_dir.y));
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float scale_min_x = min(1.0, 0.99 * vp_line_begin.x / max(1e-5, -vp_line_dir.x));
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float scale_min_y = min(1.0, 0.99 * vp_line_begin.y / max(1e-5, -vp_line_dir.y));
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float line_clip = min(scale_max_x, scale_max_y) * min(scale_min_x, scale_min_y);
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line_dir *= line_clip;
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z_dir *= line_clip;
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w_dir *= line_clip;
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// clip z and w advance to line advance
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vec2 line_advance = normalize(line_dir); // down to pixel
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float step_size = length(line_advance) / length(line_dir);
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float z_advance = z_dir * step_size; // adapt z advance to line advance
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float w_advance = w_dir * step_size; // adapt w advance to line advance
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// make line advance faster if direction is closer to pixel edges (this avoids sampling the same pixel twice)
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float advance_angle_adj = 1.0 / max(abs(line_advance.x), abs(line_advance.y));
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line_advance *= advance_angle_adj; // adapt z advance to line advance
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z_advance *= advance_angle_adj;
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w_advance *= advance_angle_adj;
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vec2 pos = line_begin;
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float z = z_begin;
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float w = w_begin;
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float z_from = z / w;
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float z_to = z_from;
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float depth;
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vec2 prev_pos = pos;
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bool found = false;
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float steps_taken = 0.0;
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for (int i = 0; i < params.num_steps; i++) {
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pos += line_advance;
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z += z_advance;
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w += w_advance;
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// convert to linear depth
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depth = imageLoad(source_depth, ivec2(pos - 0.5)).r;
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z_from = z_to;
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z_to = z / w;
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if (depth > z_to) {
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// if depth was surpassed
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if (depth <= max(z_to, z_from) + params.depth_tolerance && -depth < params.camera_z_far) {
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// check the depth tolerance and far clip
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// check that normal is valid
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found = true;
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}
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break;
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}
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steps_taken += 1.0;
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prev_pos = pos;
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}
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if (found) {
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float margin_blend = 1.0;
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vec2 margin = vec2((params.screen_size.x + params.screen_size.y) * 0.5 * 0.05); // make a uniform margin
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if (any(bvec4(lessThan(pos, -margin), greaterThan(pos, params.screen_size + margin)))) {
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// clip outside screen + margin
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imageStore(ssr_image, ssC, vec4(0.0));
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return;
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}
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{
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//blend fading out towards external margin
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vec2 margin_grad = mix(pos - params.screen_size, -pos, lessThan(pos, vec2(0.0)));
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margin_blend = 1.0 - smoothstep(0.0, margin.x, max(margin_grad.x, margin_grad.y));
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//margin_blend = 1.0;
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}
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vec2 final_pos;
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float grad;
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grad = steps_taken / float(params.num_steps);
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float initial_fade = params.curve_fade_in == 0.0 ? 1.0 : pow(clamp(grad, 0.0, 1.0), params.curve_fade_in);
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float fade = pow(clamp(1.0 - grad, 0.0, 1.0), params.distance_fade) * initial_fade;
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final_pos = pos;
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vec4 final_color;
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#ifdef MODE_ROUGH
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// if roughness is enabled, do screen space cone tracing
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float blur_radius = 0.0;
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float roughness = normal_roughness.w;
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if (roughness > 0.001) {
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float cone_angle = min(roughness, 0.999) * M_PI * 0.5;
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float cone_len = length(final_pos - line_begin);
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float op_len = 2.0 * tan(cone_angle) * cone_len; // opposite side of iso triangle
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{
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// fit to sphere inside cone (sphere ends at end of cone), something like this:
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// ___
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// \O/
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// V
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//
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// as it avoids bleeding from beyond the reflection as much as possible. As a plus
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// it also makes the rough reflection more elongated.
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float a = op_len;
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float h = cone_len;
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float a2 = a * a;
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float fh2 = 4.0f * h * h;
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blur_radius = (a * (sqrt(a2 + fh2) - a)) / (4.0f * h);
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}
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}
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final_color = imageLoad(source_diffuse, ivec2((final_pos - 0.5) * pixel_size));
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imageStore(blur_radius_image, ssC, vec4(blur_radius / 255.0)); //stored in r8
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#endif
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final_color = vec4(imageLoad(source_diffuse, ivec2(final_pos - 0.5)).rgb, fade * margin_blend);
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//change blend by metallic
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vec4 metallic_mask = unpackUnorm4x8(params.metallic_mask);
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final_color.a *= dot(metallic_mask, texelFetch(source_metallic, ssC << 1, 0));
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imageStore(ssr_image, ssC, final_color);
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} else {
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#ifdef MODE_ROUGH
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imageStore(blur_radius_image, ssC, vec4(0.0));
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#endif
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imageStore(ssr_image, ssC, vec4(0.0));
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}
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}
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