mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-27 22:52:21 +00:00
27de599ac4
However, this time it doesn't modify the light array when it sorts the lights by size since the lights are now located before the renderer gets to see them, and having the fix up the light leafs array would be too painful (and probably the completely wrong thing to do anyway: the light array should be treated as constant by the renderer). 1.6GB of memory for gmsp3v2's lights (a little better than marcher: more smaller lights?). For reference: gmsp3v2: shadow maps: 8330 layers in 29 images: 1647706112 marcher: shadow maps: 2440 layers in 11 images: 2358575104
122 lines
3.6 KiB
GLSL
122 lines
3.6 KiB
GLSL
#version 450
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layout (input_attachment_index = 0, set = 0, binding = 0) uniform subpassInput depth;
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layout (input_attachment_index = 1, set = 0, binding = 1) uniform subpassInput color;
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layout (input_attachment_index = 2, set = 0, binding = 2) uniform subpassInput emission;
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layout (input_attachment_index = 3, set = 0, binding = 3) uniform subpassInput normal;
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layout (input_attachment_index = 4, set = 0, binding = 4) uniform subpassInput position;
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struct LightData {
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vec4 color; // .a is intensity
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vec4 position; // .w = 0 -> directional, .w = 1 -> point/cone
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vec4 direction; // .w = -cos(cone_angle/2) (1 for omni/dir)
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vec4 attenuation;
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};
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#define StyleMask 0x07f
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#define ModelMask 0x380
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#define ShadowMask 0xc00
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#define LM_LINEAR (0 << 7) // light - dist (or radius + dist if -ve)
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#define LM_INVERSE (1 << 7) // distFactor1 * light / dist
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#define LM_INVERSE2 (2 << 7) // distFactor2 * light / (dist * dist)
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#define LM_INFINITE (3 << 7) // light
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#define LM_AMBIENT (4 << 7) // light
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#define LM_INVERSE3 (5 << 7) // distFactor2 * light / (dist + distFactor2)**2
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#define ST_NONE (0 << 10) // no shadows
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#define ST_PLANE (1 << 10) // single plane shadow map (small spotlight)
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#define ST_CASCADE (2 << 10) // cascaded shadow maps
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#define ST_CUBE (3 << 10) // cubemap (omni, large spotlight)
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layout (constant_id = 0) const int MaxLights = 768;
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layout (set = 2, binding = 0) uniform sampler2DArrayShadow shadowCascade[MaxLights];
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layout (set = 2, binding = 0) uniform sampler2DShadow shadowPlane[MaxLights];
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layout (set = 2, binding = 0) uniform samplerCubeShadow shadowCube[MaxLights];
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layout (set = 1, binding = 0) uniform Lights {
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LightData lights[MaxLights];
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int lightCount;
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//mat4 shadowMat[MaxLights];
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//vec4 shadowCascale[MaxLights];
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};
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layout (location = 0) out vec4 frag_color;
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float
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spot_cone (LightData light, vec3 incoming)
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{
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vec3 dir = light.direction.xyz;
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float cone = light.direction.w;
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float spotdot = dot (incoming, dir);
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return 1 - smoothstep (cone, .995 * cone + 0.005, spotdot);
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}
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float
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diffuse (vec3 incoming, vec3 normal)
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{
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float lightdot = dot (incoming, normal);
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return clamp (lightdot, 0, 1);
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}
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float
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shadow_cascade (sampler2DArrayShadow map)
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{
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return 1;
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}
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float
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shadow_plane (sampler2DShadow map)
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{
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return 1;
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}
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float
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shadow_cube (samplerCubeShadow map)
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{
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return 1;
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}
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void
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main (void)
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{
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//float d = subpassLoad (depth).r;
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vec3 c = subpassLoad (color).rgb;
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vec3 e = subpassLoad (emission).rgb;
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vec3 n = subpassLoad (normal).rgb;
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vec3 p = subpassLoad (position).rgb;
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vec3 light = vec3 (0);
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//vec3 minLight = vec3 (0);
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for (int i = 0; i < lightCount; i++) {
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LightData l = lights[i];
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vec3 dir = l.position.xyz - l.position.w * p;
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float r2 = dot (dir, dir);
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vec4 a = l.attenuation;
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if (l.position.w * a.w * a.w * r2 >= 1) {
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continue;
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}
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vec4 r = vec4 (r2, sqrt(r2), 1, 0);
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vec3 incoming = dir / r.y;
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float I = (1 - a.w * r.y) / dot (a, r);
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/*int shadow = lights[i].data & ShadowMask;
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if (shadow == ST_CASCADE) {
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I *= shadow_cascade (shadowCascade[i]);
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} else if (shadow == ST_PLANE) {
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I *= shadow_plane (shadowPlane[i]);
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} else if (shadow == ST_CUBE) {
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I *= shadow_cube (shadowCube[i]);
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}*/
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float namb = dot(l.direction.xyz, l.direction.xyz);
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I *= spot_cone (l, incoming) * diffuse (incoming, n);
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I = mix (1, I, namb);
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light += I * l.color.w * l.color.xyz;
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}
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//light = max (light, minLight);
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frag_color = vec4 (c * light + e, 1);
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}
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