virtualx-engine/servers/rendering/renderer_rd/shaders/effects/copy.glsl

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#[compute]
#version 450
#VERSION_DEFINES
layout(local_size_x = 8, local_size_y = 8, local_size_z = 1) in;
#define FLAG_HORIZONTAL (1 << 0)
#define FLAG_USE_BLUR_SECTION (1 << 1)
#define FLAG_USE_ORTHOGONAL_PROJECTION (1 << 2)
#define FLAG_DOF_NEAR_FIRST_TAP (1 << 3)
#define FLAG_GLOW_FIRST_PASS (1 << 4)
#define FLAG_FLIP_Y (1 << 5)
#define FLAG_FORCE_LUMINANCE (1 << 6)
#define FLAG_COPY_ALL_SOURCE (1 << 7)
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#define FLAG_HIGH_QUALITY_GLOW (1 << 8)
#define FLAG_ALPHA_TO_ONE (1 << 9)
layout(push_constant, std430) uniform Params {
ivec4 section;
ivec2 target;
uint flags;
uint pad;
// Glow.
float glow_strength;
float glow_bloom;
float glow_hdr_threshold;
float glow_hdr_scale;
float glow_exposure;
float glow_white;
float glow_luminance_cap;
float glow_auto_exposure_scale;
// DOF.
float camera_z_far;
float camera_z_near;
uint pad2[2];
vec4 set_color;
}
params;
#ifdef MODE_CUBEMAP_ARRAY_TO_PANORAMA
layout(set = 0, binding = 0) uniform samplerCubeArray source_color;
#elif defined(MODE_CUBEMAP_TO_PANORAMA)
layout(set = 0, binding = 0) uniform samplerCube source_color;
#elif !defined(MODE_SET_COLOR)
layout(set = 0, binding = 0) uniform sampler2D source_color;
#endif
#ifdef GLOW_USE_AUTO_EXPOSURE
layout(set = 1, binding = 0) uniform sampler2D source_auto_exposure;
#endif
#if defined(MODE_LINEARIZE_DEPTH_COPY) || defined(MODE_SIMPLE_COPY_DEPTH)
layout(r32f, set = 3, binding = 0) uniform restrict writeonly image2D dest_buffer;
#elif defined(DST_IMAGE_8BIT)
layout(rgba8, set = 3, binding = 0) uniform restrict writeonly image2D dest_buffer;
#else
layout(rgba32f, set = 3, binding = 0) uniform restrict writeonly image2D dest_buffer;
#endif
#ifdef MODE_GAUSSIAN_BLUR
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shared vec4 local_cache[256];
shared vec4 temp_cache[128];
#endif
void main() {
// Pixel being shaded
ivec2 pos = ivec2(gl_GlobalInvocationID.xy);
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#ifndef MODE_GAUSSIAN_BLUR // Gaussian blur needs the extra threads
if (any(greaterThanEqual(pos, params.section.zw))) { //too large, do nothing
return;
}
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#endif
#ifdef MODE_MIPMAP
ivec2 base_pos = (pos + params.section.xy) << 1;
vec4 color = texelFetch(source_color, base_pos, 0);
color += texelFetch(source_color, base_pos + ivec2(0, 1), 0);
color += texelFetch(source_color, base_pos + ivec2(1, 0), 0);
color += texelFetch(source_color, base_pos + ivec2(1, 1), 0);
color /= 4.0;
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color = mix(color, vec4(100.0, 100.0, 100.0, 1.0), isinf(color));
color = mix(color, vec4(100.0, 100.0, 100.0, 1.0), isnan(color));
imageStore(dest_buffer, pos + params.target, color);
#endif
#ifdef MODE_GAUSSIAN_BLUR
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// First pass copy texture into 16x16 local memory for every 8x8 thread block
vec2 quad_center_uv = clamp(vec2(gl_GlobalInvocationID.xy + gl_LocalInvocationID.xy - 3.5) / params.section.zw, vec2(0.5 / params.section.zw), vec2(1.0 - 1.5 / params.section.zw));
uint dest_index = gl_LocalInvocationID.x * 2 + gl_LocalInvocationID.y * 2 * 16;
#ifdef MODE_GLOW
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if (bool(params.flags & FLAG_HIGH_QUALITY_GLOW)) {
vec2 quad_offset_uv = clamp((vec2(gl_GlobalInvocationID.xy + gl_LocalInvocationID.xy - 3.0)) / params.section.zw, vec2(0.5 / params.section.zw), vec2(1.0 - 1.5 / params.section.zw));
local_cache[dest_index] = (textureLod(source_color, quad_center_uv, 0) + textureLod(source_color, quad_offset_uv, 0)) * 0.5;
local_cache[dest_index + 1] = (textureLod(source_color, quad_center_uv + vec2(1.0 / params.section.z, 0.0), 0) + textureLod(source_color, quad_offset_uv + vec2(1.0 / params.section.z, 0.0), 0)) * 0.5;
local_cache[dest_index + 16] = (textureLod(source_color, quad_center_uv + vec2(0.0, 1.0 / params.section.w), 0) + textureLod(source_color, quad_offset_uv + vec2(0.0, 1.0 / params.section.w), 0)) * 0.5;
local_cache[dest_index + 16 + 1] = (textureLod(source_color, quad_center_uv + vec2(1.0 / params.section.zw), 0) + textureLod(source_color, quad_offset_uv + vec2(1.0 / params.section.zw), 0)) * 0.5;
} else
#endif
{
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local_cache[dest_index] = textureLod(source_color, quad_center_uv, 0);
local_cache[dest_index + 1] = textureLod(source_color, quad_center_uv + vec2(1.0 / params.section.z, 0.0), 0);
local_cache[dest_index + 16] = textureLod(source_color, quad_center_uv + vec2(0.0, 1.0 / params.section.w), 0);
local_cache[dest_index + 16 + 1] = textureLod(source_color, quad_center_uv + vec2(1.0 / params.section.zw), 0);
}
#ifdef MODE_GLOW
if (bool(params.flags & FLAG_GLOW_FIRST_PASS)) {
// Tonemap initial samples to reduce weight of fireflies: https://graphicrants.blogspot.com/2013/12/tone-mapping.html
local_cache[dest_index] /= 1.0 + dot(local_cache[dest_index].rgb, vec3(0.299, 0.587, 0.114));
local_cache[dest_index + 1] /= 1.0 + dot(local_cache[dest_index + 1].rgb, vec3(0.299, 0.587, 0.114));
local_cache[dest_index + 16] /= 1.0 + dot(local_cache[dest_index + 16].rgb, vec3(0.299, 0.587, 0.114));
local_cache[dest_index + 16 + 1] /= 1.0 + dot(local_cache[dest_index + 16 + 1].rgb, vec3(0.299, 0.587, 0.114));
}
const float kernel[4] = { 0.174938, 0.165569, 0.140367, 0.106595 };
#else
// Simpler blur uses SIGMA2 for the gaussian kernel for a stronger effect.
const float kernel[4] = { 0.214607, 0.189879, 0.131514, 0.071303 };
#endif
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memoryBarrierShared();
barrier();
// Horizontal pass. Needs to copy into 8x16 chunk of local memory so vertical pass has full resolution
uint read_index = gl_LocalInvocationID.x + gl_LocalInvocationID.y * 32 + 4;
vec4 color_top = vec4(0.0);
color_top += local_cache[read_index] * kernel[0];
color_top += local_cache[read_index + 1] * kernel[1];
color_top += local_cache[read_index + 2] * kernel[2];
color_top += local_cache[read_index + 3] * kernel[3];
color_top += local_cache[read_index - 1] * kernel[1];
color_top += local_cache[read_index - 2] * kernel[2];
color_top += local_cache[read_index - 3] * kernel[3];
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vec4 color_bottom = vec4(0.0);
color_bottom += local_cache[read_index + 16] * kernel[0];
color_bottom += local_cache[read_index + 1 + 16] * kernel[1];
color_bottom += local_cache[read_index + 2 + 16] * kernel[2];
color_bottom += local_cache[read_index + 3 + 16] * kernel[3];
color_bottom += local_cache[read_index - 1 + 16] * kernel[1];
color_bottom += local_cache[read_index - 2 + 16] * kernel[2];
color_bottom += local_cache[read_index - 3 + 16] * kernel[3];
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// rotate samples to take advantage of cache coherency
uint write_index = gl_LocalInvocationID.y * 2 + gl_LocalInvocationID.x * 16;
temp_cache[write_index] = color_top;
temp_cache[write_index + 1] = color_bottom;
memoryBarrierShared();
barrier();
// If destination outside of texture, can stop doing work now
if (any(greaterThanEqual(pos, params.section.zw))) {
return;
}
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// Vertical pass
uint index = gl_LocalInvocationID.y + gl_LocalInvocationID.x * 16 + 4;
vec4 color = vec4(0.0);
color += temp_cache[index] * kernel[0];
color += temp_cache[index + 1] * kernel[1];
color += temp_cache[index + 2] * kernel[2];
color += temp_cache[index + 3] * kernel[3];
color += temp_cache[index - 1] * kernel[1];
color += temp_cache[index - 2] * kernel[2];
color += temp_cache[index - 3] * kernel[3];
#ifdef MODE_GLOW
if (bool(params.flags & FLAG_GLOW_FIRST_PASS)) {
// Undo tonemap to restore range: https://graphicrants.blogspot.com/2013/12/tone-mapping.html
color /= 1.0 - dot(color.rgb, vec3(0.299, 0.587, 0.114));
}
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color *= params.glow_strength;
if (bool(params.flags & FLAG_GLOW_FIRST_PASS)) {
#ifdef GLOW_USE_AUTO_EXPOSURE
color /= texelFetch(source_auto_exposure, ivec2(0, 0), 0).r / params.glow_auto_exposure_scale;
#endif
color *= params.glow_exposure;
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float luminance = max(color.r, max(color.g, color.b));
float feedback = max(smoothstep(params.glow_hdr_threshold, params.glow_hdr_threshold + params.glow_hdr_scale, luminance), params.glow_bloom);
color = min(color * feedback, vec4(params.glow_luminance_cap));
}
#endif
imageStore(dest_buffer, pos + params.target, color);
#endif
#ifdef MODE_SIMPLE_COPY
vec4 color;
if (bool(params.flags & FLAG_COPY_ALL_SOURCE)) {
vec2 uv = vec2(pos) / vec2(params.section.zw);
if (bool(params.flags & FLAG_FLIP_Y)) {
uv.y = 1.0 - uv.y;
}
color = textureLod(source_color, uv, 0.0);
} else {
color = texelFetch(source_color, pos + params.section.xy, 0);
if (bool(params.flags & FLAG_FLIP_Y)) {
pos.y = params.section.w - pos.y - 1;
}
}
if (bool(params.flags & FLAG_FORCE_LUMINANCE)) {
color.rgb = vec3(max(max(color.r, color.g), color.b));
}
if (bool(params.flags & FLAG_ALPHA_TO_ONE)) {
color.a = 1.0;
}
imageStore(dest_buffer, pos + params.target, color);
#endif
#ifdef MODE_SIMPLE_COPY_DEPTH
vec4 color = texelFetch(source_color, pos + params.section.xy, 0);
if (bool(params.flags & FLAG_FLIP_Y)) {
pos.y = params.section.w - pos.y - 1;
}
imageStore(dest_buffer, pos + params.target, vec4(color.r));
#endif
#ifdef MODE_LINEARIZE_DEPTH_COPY
float depth = texelFetch(source_color, pos + params.section.xy, 0).r;
depth = depth * 2.0 - 1.0;
depth = 2.0 * params.camera_z_near * params.camera_z_far / (params.camera_z_far + params.camera_z_near - depth * (params.camera_z_far - params.camera_z_near));
vec4 color = vec4(depth / params.camera_z_far);
if (bool(params.flags & FLAG_FLIP_Y)) {
pos.y = params.section.w - pos.y - 1;
}
imageStore(dest_buffer, pos + params.target, color);
#endif
#if defined(MODE_CUBEMAP_TO_PANORAMA) || defined(MODE_CUBEMAP_ARRAY_TO_PANORAMA)
const float PI = 3.14159265359;
vec2 uv = vec2(pos) / vec2(params.section.zw);
if (bool(params.flags & FLAG_FLIP_Y)) {
uv.y = 1.0 - uv.y;
}
float phi = uv.x * 2.0 * PI;
float theta = uv.y * PI;
vec3 normal;
normal.x = sin(phi) * sin(theta) * -1.0;
normal.y = cos(theta);
normal.z = cos(phi) * sin(theta) * -1.0;
#ifdef MODE_CUBEMAP_TO_PANORAMA
vec4 color = textureLod(source_color, normal, params.camera_z_far); //the biggest the lod the least the acne
#else
vec4 color = textureLod(source_color, vec4(normal, params.camera_z_far), 0.0); //the biggest the lod the least the acne
#endif
imageStore(dest_buffer, pos + params.target, color);
#endif
#ifdef MODE_SET_COLOR
imageStore(dest_buffer, pos + params.target, params.set_color);
#endif
}