forked from LeenkxTeam/LNXSDK
178 lines
4.2 KiB
GLSL
178 lines
4.2 KiB
GLSL
// http://sebastien.hillaire.free.fr/index.php?option=com_content&view=article&id=72&Itemid=106
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#version 450
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#include "compiled.inc"
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#include "std/gbuffer.glsl"
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#include "std/shadows.glsl"
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#ifdef _Clusters
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#include "std/clusters.glsl"
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#endif
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#ifdef _Spot
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#include "std/light_common.glsl"
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#endif
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#ifdef _CPostprocess
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uniform vec3 PPComp11;
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uniform vec4 PPComp17;
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#endif
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uniform sampler2D gbufferD;
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uniform sampler2D snoise;
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#ifdef _Clusters
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uniform vec4 lightsArray[maxLights * 3];
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#ifdef _Spot
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uniform vec4 lightsArraySpot[maxLights * 2];
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#endif
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uniform sampler2D clustersData;
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uniform vec2 cameraPlane;
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#endif
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#ifdef _ShadowMap
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#ifdef _SinglePoint
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#ifdef _Spot
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uniform sampler2DShadow shadowMapSpot[1];
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uniform mat4 LWVPSpot[1];
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#else
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uniform samplerCubeShadow shadowMapPoint[1];
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uniform vec2 lightProj;
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#endif
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#endif
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#ifdef _Clusters
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uniform samplerCubeShadow shadowMapPoint[4];
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uniform vec2 lightProj;
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#ifdef _Spot
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uniform sampler2DShadow shadowMapSpot[4];
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uniform mat4 LWVPSpot[maxLightsCluster];
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#endif
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#endif
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#endif
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#ifdef _Sun
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#ifdef _ShadowMap
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#ifdef _ShadowMapAtlas
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#ifndef _SingleAtlas
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uniform sampler2DShadow shadowMapAtlasSun;
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#else
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uniform sampler2DShadow shadowMapAtlas;
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#endif
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#else
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uniform sampler2DShadow shadowMap;
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#endif
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uniform float shadowsBias;
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#ifdef _CSM
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//!uniform vec4 casData[shadowmapCascades * 4 + 4];
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#else
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uniform mat4 LWVP;
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#endif
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#endif // _ShadowMap
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#endif
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#ifdef _SinglePoint // Fast path for single light
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uniform vec3 pointPos;
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uniform vec3 pointCol;
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#ifdef _ShadowMap
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uniform float pointBias;
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#endif
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#ifdef _Spot
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uniform vec3 spotDir;
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uniform vec3 spotRight;
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uniform vec4 spotData;
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#endif
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#endif
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uniform vec2 cameraProj;
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uniform vec3 eye;
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uniform vec3 eyeLook;
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in vec2 texCoord;
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in vec3 viewRay;
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out float fragColor;
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const float tScat = 0.08;
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const float tAbs = 0.0;
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const float tExt = tScat + tAbs;
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#ifdef _CPostprocess
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float stepLen = 1.0 / int(PPComp11.y);
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float AirTurbidity = PPComp17.w;
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#else
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const float stepLen = 1.0 / volumSteps;
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float AirTurbidity = volumAirTurbidity;
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#endif
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const float lighting = 0.4;
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void rayStep(inout vec3 curPos, inout float curOpticalDepth, inout float scatteredLightAmount, float stepLenWorld, vec3 viewVecNorm) {
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curPos += stepLenWorld * viewVecNorm;
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const float density = 1.0;
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float l1 = lighting * stepLenWorld * tScat * density;
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curOpticalDepth *= exp(-tExt * stepLenWorld * density);
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float visibility = 0.0;
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vec4 lPos;
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#ifdef _Sun
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#ifdef _CSM
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mat4 LWVP = mat4(casData[4], casData[4 + 1], casData[4 + 2], casData[4 + 3]);
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#endif
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lPos = LWVP * vec4(curPos, 1.0);
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lPos.xyz /= lPos.w;
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visibility = texture(
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#ifdef _ShadowMapAtlas
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#ifndef _SingleAtlas
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shadowMapAtlasSun
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#else
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shadowMapAtlas
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#endif
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#else
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shadowMap
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#endif
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, vec3(lPos.xy, lPos.z - shadowsBias));
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#endif
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#ifdef _SinglePoint
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#ifdef _Spot
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lPos = LWVPSpot[0] * vec4(curPos, 1.0);
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visibility = shadowTest(shadowMapSpot[0], lPos.xyz / lPos.w, pointBias);
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visibility *= spotlightMask(normalize(pointPos - curPos), spotDir, spotRight, spotData.zw, spotData.x, spotData.y);
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#else
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vec3 ld = pointPos - curPos;
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visibility = PCFCube(shadowMapPoint[0], ld, -normalize(ld), pointBias, lightProj, vec3(0.0));
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#endif
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#endif
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#ifdef _Clusters
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#endif
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scatteredLightAmount += curOpticalDepth * l1 * visibility;
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}
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void main() {
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float pixelRayMarchNoise = textureLod(snoise, texCoord * 100, 0.0).r * 2.0 - 1.0;
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float depth = textureLod(gbufferD, texCoord, 0.0).r * 2.0 - 1.0;
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vec3 p = getPos(eye, eyeLook, normalize(viewRay), depth, cameraProj);
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vec3 viewVec = p - eye;
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float worldPosDist = length(viewVec);
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vec3 viewVecNorm = viewVec / worldPosDist;
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float startDepth = 0.1;
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startDepth = min(worldPosDist, startDepth);
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float endDepth = 20.0;
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endDepth = min(worldPosDist, endDepth);
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vec3 curPos = eye + viewVecNorm * startDepth;
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float stepLenWorld = stepLen * (endDepth - startDepth);
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float curOpticalDepth = exp(-tExt * stepLenWorld);
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float scatteredLightAmount = 0.0;
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curPos += stepLenWorld * viewVecNorm * pixelRayMarchNoise;
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for (float l = stepLen; l < 0.99999; l += stepLen) { // Do not do the first and last steps
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rayStep(curPos, curOpticalDepth, scatteredLightAmount, stepLenWorld, viewVecNorm);
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}
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fragColor = scatteredLightAmount * AirTurbidity;
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}
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