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#include "/lib/settings.glsl"
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// #if defined END_SHADER || defined NETHER_SHADER
// #undef IS_LPV_ENABLED
// #endifs
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#ifdef IS_LPV_ENABLED
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#extension GL_ARB_shader_image_load_store: enable
#extension GL_ARB_shading_language_packing: enable
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#endif
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#include "/lib/util.glsl"
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#include "/lib/res_params.glsl"
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#define diagonal3_old(m) vec3((m)[0].x, (m)[1].y, m[2].z)
#define projMAD_old(m, v) (diagonal3_old(m) * (v) + (m)[3].xyz)
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const bool colortex5MipmapEnabled = true;
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#ifdef OVERWORLD_SHADER
const bool shadowHardwareFiltering = true;
uniform sampler2DShadow shadow;
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#ifdef TRANSLUCENT_COLORED_SHADOWS
uniform sampler2D shadowcolor0;
uniform sampler2DShadow shadowtex0;
uniform sampler2DShadow shadowtex1;
#endif
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flat varying vec3 averageSkyCol_Clouds;
flat varying vec4 lightCol;
#if Sun_specular_Strength != 0
#define LIGHTSOURCE_REFLECTION
#endif
#include "/lib/lightning_stuff.glsl"
#endif
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#ifdef NETHER_SHADER
uniform float nightVision;
const bool colortex4MipmapEnabled = true;
uniform vec3 lightningEffect;
// #define LIGHTSOURCE_REFLECTION
#endif
#ifdef END_SHADER
uniform float nightVision;
uniform vec3 lightningEffect;
flat varying float Flashing;
// #define LIGHTSOURCE_REFLECTION
#endif
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uniform int hideGUI;
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uniform sampler2D noisetex; //noise
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uniform sampler2D depthtex0;
uniform sampler2D depthtex1;
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uniform sampler2D depthtex2;
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#ifdef DISTANT_HORIZONS
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uniform sampler2D dhDepthTex;
uniform sampler2D dhDepthTex1;
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#endif
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uniform sampler2D colortex0; //clouds
uniform sampler2D colortex1; //albedo(rgb),material(alpha) RGBA16
uniform sampler2D colortex2; //translucents(rgba)
uniform sampler2D colortex3; //filtered shadowmap(VPS)
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uniform sampler2D colortex4; //LUT(rgb), quarter res depth(alpha)
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uniform sampler2D colortex5; //TAA buffer/previous frame
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uniform sampler2D colortex6; //Noise
uniform sampler2D colortex7; //water?
uniform sampler2D colortex8; //Specular
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// uniform sampler2D colortex9; //Specular
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uniform sampler2D colortex10;
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uniform sampler2D colortex11;
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uniform sampler2D colortex12;
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uniform sampler2D colortex13;
uniform sampler2D colortex14;
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uniform sampler2D colortex15; // flat normals(rgb), vanillaAO(alpha)
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#ifdef IS_LPV_ENABLED
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uniform usampler1D texBlockData;
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uniform sampler3D texLpv1;
uniform sampler3D texLpv2;
#endif
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uniform mat4 shadowModelView;
uniform mat4 shadowModelViewInverse;
uniform mat4 shadowProjection;
uniform mat4 shadowProjectionInverse;
uniform mat4 gbufferProjection;
uniform mat4 gbufferProjectionInverse;
uniform mat4 gbufferModelView;
uniform mat4 gbufferModelViewInverse;
uniform mat4 gbufferPreviousProjection;
uniform mat4 gbufferPreviousModelView;
uniform vec3 cameraPosition;
uniform vec3 previousCameraPosition;
// uniform float far;
uniform float near;
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uniform float farPlane;
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uniform float dhFarPlane;
uniform float dhNearPlane;
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flat varying vec3 zMults;
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uniform vec2 texelSize;
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uniform float viewWidth;
uniform float viewHeight;
uniform float aspectRatio;
uniform float eyeAltitude;
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flat varying vec2 TAA_Offset;
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uniform int frameCounter;
uniform float frameTimeCounter;
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uniform float rainStrength;
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uniform int isEyeInWater;
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uniform ivec2 eyeBrightnessSmooth;
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uniform vec3 sunVec;
flat varying vec3 WsunVec;
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flat varying vec3 unsigned_WsunVec;
flat varying float exposure;
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#ifdef IS_LPV_ENABLED
uniform int heldItemId;
uniform int heldItemId2;
#endif
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void convertHandDepth(inout float depth) {
float ndcDepth = depth * 2.0 - 1.0;
ndcDepth /= MC_HAND_DEPTH;
depth = ndcDepth * 0.5 + 0.5;
}
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float convertHandDepth_2(in float depth, bool hand) {
if(!hand) return depth;
float ndcDepth = depth * 2.0 - 1.0;
ndcDepth /= MC_HAND_DEPTH;
return ndcDepth * 0.5 + 0.5;
}
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vec3 toScreenSpace(vec3 p) {
vec4 iProjDiag = vec4(gbufferProjectionInverse[0].x, gbufferProjectionInverse[1].y, gbufferProjectionInverse[2].zw);
vec3 feetPlayerPos = p * 2. - 1.;
vec4 viewPos = iProjDiag * feetPlayerPos.xyzz + gbufferProjectionInverse[3];
return viewPos.xyz / viewPos.w;
}
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#define TESTTHINGYG
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#include "/lib/color_transforms.glsl"
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#include "/lib/waterBump.glsl"
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#include "/lib/Shadow_Params.glsl"
#include "/lib/Shadows.glsl"
#include "/lib/stars.glsl"
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#ifdef OVERWORLD_SHADER
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#define CLOUDSHADOWSONLY
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#include "/lib/volumetricClouds.glsl"
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#define CLOUDS_INTERSECT_TERRAIN
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#endif
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#ifdef IS_LPV_ENABLED
#include "/lib/hsv.glsl"
#include "/lib/lpv_common.glsl"
#include "/lib/lpv_render.glsl"
#endif
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#include "/lib/diffuse_lighting.glsl"
float ld(float dist) {
return (2.0 * near) / (far + near - dist * (far - near));
}
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#include "/lib/sky_gradient.glsl"
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vec3 decode (vec2 encn){
vec3 n = vec3(0.0);
encn = encn * 2.0 - 1.0;
n.xy = abs(encn);
n.z = 1.0 - n.x - n.y;
n.xy = n.z <= 0.0 ? (1.0 - n.yx) * sign(encn) : encn;
return clamp(normalize(n.xyz),-1.0,1.0);
}
vec2 decodeVec2(float a){
const vec2 constant1 = 65535. / vec2( 256., 65536.);
const float constant2 = 256. / 255.;
return fract( a * constant1 ) * constant2 ;
}
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#include "/lib/end_fog.glsl"
#include "/lib/specular.glsl"
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#include "/lib/DistantHorizons_projections.glsl"
float DH_ld(float dist) {
return (2.0 * dhNearPlane) / (dhFarPlane + dhNearPlane - dist * (dhFarPlane - dhNearPlane));
}
float DH_inv_ld (float lindepth){
return -((2.0*dhNearPlane/lindepth)-dhFarPlane-dhNearPlane)/(dhFarPlane-dhNearPlane);
}
float linearizeDepthFast(const in float depth, const in float near, const in float far) {
return (near * far) / (depth * (near - far) + far);
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// return (2.0 * near) / (far + near - depth * (far - near));
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}
float invertlinearDepthFast(const in float depth, const in float near, const in float far) {
return ((2.0*near/depth)-far-near)/(far-near);
}
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vec3 normVec (vec3 vec){
return vec*inversesqrt(dot(vec,vec));
}
float lengthVec (vec3 vec){
return sqrt(dot(vec,vec));
}
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// #define fsign(a) (clamp((a)*1e35,0.,1.)*2.-1.)
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float triangularize(float dither)
{
float center = dither*2.0-1.0;
dither = center*inversesqrt(abs(center));
return clamp(dither-fsign(center),0.0,1.0);
}
vec3 fp10Dither(vec3 color,float dither){
const vec3 mantissaBits = vec3(6.,6.,5.);
vec3 exponent = floor(log2(color));
return color + dither*exp2(-mantissaBits)*exp2(exponent);
}
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// float facos(float sx){
// float x = clamp(abs( sx ),0.,1.);
// return sqrt( 1. - x ) * ( -0.16882 * x + 1.56734 );
// }
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vec2 tapLocation(int sampleNumber,int nb, float nbRot,float jitter,float distort)
{
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float alpha0 = sampleNumber/nb;
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float alpha = (sampleNumber+jitter)/nb;
float angle = jitter*6.28 + alpha * 4.0 * 6.28;
float sin_v, cos_v;
sin_v = sin(angle);
cos_v = cos(angle);
return vec2(cos_v, sin_v)*sqrt(alpha);
}
vec3 BilateralFiltering(sampler2D tex, sampler2D depth,vec2 coord,float frDepth,float maxZ){
vec4 sampled = vec4(texelFetch2D(tex,ivec2(coord),0).rgb,1.0);
return vec3(sampled.x,sampled.yz/sampled.w);
}
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float interleaved_gradientNoise(){
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vec2 coord = gl_FragCoord.xy + (frameCounter%40000) * 2.0;
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float noise = fract( 52.9829189 * fract( (coord.x * 0.06711056) + (coord.y * 0.00583715) ) );
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return noise ;
}
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float R2_dither(){
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vec2 coord = gl_FragCoord.xy + (frameCounter%40000) * 2.0;
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vec2 alpha = vec2(0.75487765, 0.56984026);
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return fract(alpha.x * coord.x + alpha.y * coord.y ) ;
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}
float blueNoise(){
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return fract(texelFetch2D(noisetex, ivec2(gl_FragCoord.xy)%512, 0).a + 1.0/1.6180339887 * frameCounter);
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}
vec4 blueNoise(vec2 coord){
return texelFetch2D(colortex6, ivec2(coord)%512 , 0) ;
}
vec3 toShadowSpaceProjected(vec3 feetPlayerPos){
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mat4 DH_shadowProjection = DH_shadowProjectionTweak(shadowProjection);
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feetPlayerPos = mat3(gbufferModelViewInverse) * feetPlayerPos + gbufferModelViewInverse[3].xyz;
feetPlayerPos = mat3(shadowModelView) * feetPlayerPos + shadowModelView[3].xyz;
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feetPlayerPos = diagonal3_old(DH_shadowProjection) * feetPlayerPos + DH_shadowProjection[3].xyz;
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return feetPlayerPos;
}
vec2 tapLocation(int sampleNumber, float spinAngle,int nb, float nbRot,float r0)
{
float alpha = (float(sampleNumber*1.0f + r0) * (1.0 / (nb)));
float angle = alpha * (nbRot * 6.28) + spinAngle*6.28;
float ssR = alpha;
float sin_v, cos_v;
sin_v = sin(angle);
cos_v = cos(angle);
return vec2(cos_v, sin_v)*ssR;
}
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vec2 tapLocation_simple(
int samples, int totalSamples, float rotation, float rng
){
const float PI = 3.141592653589793238462643383279502884197169;
float alpha = float(samples + rng) * (1.0 / float(totalSamples));
float angle = alpha * (rotation * PI);
float sin_v = sin(angle);
float cos_v = cos(angle);
return vec2(cos_v, sin_v) * sqrt(alpha);
}
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vec2 CleanSample(
int samples, float totalSamples, float noise
){
// this will be used to make 1 full rotation of the spiral. the mulitplication is so it does nearly a single rotation, instead of going past where it started
float variance = noise * 0.897;
// for every sample input, it will have variance applied to it.
float variedSamples = float(samples) + variance;
// for every sample, the sample position must change its distance from the origin.
// otherwise, you will just have a circle.
float spiralShape = pow(variedSamples / (totalSamples + variance),0.5);
float shape = 2.26; // this is very important. 2.26 is very specific
float theta = variedSamples * (PI * shape);
float x = cos(theta) * spiralShape;
float y = sin(theta) * spiralShape;
return vec2(x, y);
}
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vec3 viewToWorld(vec3 viewPos) {
vec4 pos;
pos.xyz = viewPos;
pos.w = 0.0;
pos = gbufferModelViewInverse * pos;
return pos.xyz;
}
vec3 worldToView(vec3 worldPos) {
vec4 pos = vec4(worldPos, 0.0);
pos = gbufferModelView * pos;
return pos.xyz;
}
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float swapperlinZ(float depth, float _near, float _far) {
return (2.0 * _near) / (_far + _near - depth * (_far - _near));
// l = (2*n)/(f+n-d(f-n))
// f+n-d(f-n) = 2n/l
// -d(f-n) = ((2n/l)-f-n)
// d = -((2n/l)-f-n)/(f-n)
}
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vec2 SSRT_Shadows(vec3 viewPos, bool depthCheck, vec3 lightDir, float noise, bool isSSS, bool hand){
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float handSwitch = hand ? 1.0 : 0.0;
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float steps = 16.0;
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float Shadow = 1.0;
float SSS = 0.0;
float _near = near; float _far = far*4.0;
if (depthCheck) {
_near = dhNearPlane;
_far = dhFarPlane;
}
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vec3 worldpos = mat3(gbufferModelViewInverse) * viewPos;
float dist = 1.0 + length(worldpos)/(_far/2.0); // step length as distance increases
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vec3 clipPosition = toClipSpace3_DH(viewPos, depthCheck);
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//prevents the ray from going behind the camera
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float rayLength = ((viewPos.z + lightDir.z * _far*sqrt(3.)) > -_near) ?
(-_near -viewPos.z) / lightDir.z : _far*sqrt(3.);
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vec3 direction = toClipSpace3_DH(viewPos + lightDir*rayLength, depthCheck) - clipPosition; //convert to clip space
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direction.xyz = direction.xyz / max(abs(direction.x)/texelSize.x, abs(direction.y)/texelSize.y); //fixed step size
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float Stepmult = depthCheck ? (isSSS ? 1.0 : 6.0) : (isSSS ? 1.0 : 3.0);
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vec3 rayDir = direction * Stepmult * vec3(RENDER_SCALE,1.0) ;
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vec3 screenPos = clipPosition * vec3(RENDER_SCALE,1.0) + rayDir * noise;
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float minZ = screenPos.z;
float maxZ = screenPos.z;
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for (int i = 0; i < int(steps); i++) {
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float samplePos = convertHandDepth_2(texture2D(depthtex1, screenPos.xy).x, hand);
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#ifdef DISTANT_HORIZONS
if(depthCheck) samplePos = texture2D(dhDepthTex1, screenPos.xy).x;
#endif
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if(samplePos < screenPos.z && (samplePos <= max(minZ,maxZ) && samplePos >= min(minZ,maxZ))){
vec2 linearZ = vec2(swapperlinZ(screenPos.z, _near, _far), swapperlinZ(samplePos, _near, _far));
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float calcthreshold = abs(linearZ.x - linearZ.y) / linearZ.x;
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if (calcthreshold < 0.035) Shadow = 0.0;
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SSS += 1.0/steps;
}
minZ = maxZ - (isSSS ? 1.0 : 0.0001) / swapperlinZ(samplePos, _near, _far);
maxZ += rayDir.z;
screenPos += rayDir;
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}
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return vec2(Shadow, SSS);
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}
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void Emission(
inout vec3 Lighting,
vec3 Albedo,
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float Emission,
float exposure
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){
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float autoBrightnessAdjust = mix(5.0, 100.0, clamp(exp(-10.0*exposure),0.0,1.0));
if( Emission < 254.5/255.0) Lighting = mix(Lighting, Albedo * Emissive_Brightness * autoBrightnessAdjust, pow(Emission, Emissive_Curve)); // old method.... idk why
// if( Emission < 254.5/255.0 ) Lighting += (Albedo * Emissive_Brightness) * pow(Emission, Emissive_Curve);
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}
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#include "/lib/indirect_lighting_effects.glsl"
#include "/lib/PhotonGTAO.glsl"
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vec4 BilateralUpscale(sampler2D tex, sampler2D depth, vec2 coord, float referenceDepth){
const ivec2 scaling = ivec2(1.0/VL_RENDER_RESOLUTION);
ivec2 posDepth = ivec2(coord*VL_RENDER_RESOLUTION) * scaling;
ivec2 posColor = ivec2(coord*VL_RENDER_RESOLUTION);
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ivec2 pos = ivec2(gl_FragCoord.xy*texelSize + 1);
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ivec2 getRadius[4] = ivec2[](
ivec2(-2,-2),
ivec2(-2, 0),
ivec2( 0, 0),
ivec2( 0,-2)
);
float diffThreshold = zMults.x;
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vec4 RESULT = vec4(0.0);
float SUM = 0.0;
for (int i = 0; i < 4; i++) {
ivec2 radius = getRadius[i];
float offsetDepth = ld(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling, 0).r);
float EDGES = abs(offsetDepth - referenceDepth) < diffThreshold ? 1.0 : 1e-5;
RESULT += texelFetch2D(tex, posColor + radius + pos, 0) * EDGES;
SUM += EDGES;
}
// return vec4(0,0,0,1) * SUM;
return RESULT / SUM;
}
vec4 BilateralUpscale_DH(sampler2D tex, sampler2D depth, vec2 coord, float referenceDepth){
ivec2 scaling = ivec2(1.0/VL_RENDER_RESOLUTION);
ivec2 posDepth = ivec2(coord*VL_RENDER_RESOLUTION) * scaling;
ivec2 posColor = ivec2(coord*VL_RENDER_RESOLUTION);
ivec2 pos = ivec2(gl_FragCoord.xy*texelSize + 1);
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ivec2 getRadius[4] = ivec2[](
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ivec2(-2,-2),
ivec2(-2, 0),
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ivec2( 0, 0),
ivec2( 0,-2)
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// ivec2(-1,-1),
// ivec2( 1, 1),
// ivec2(-1, 1),
// ivec2( 1,-1)
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);
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#ifdef DISTANT_HORIZONS
float diffThreshold = 0.01;
#else
float diffThreshold = zMults.x;
#endif
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vec4 RESULT = vec4(0.0);
float SUM = 0.0;
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RESULT += texelFetch2D(tex, posColor + pos, 0);
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for (int i = 0; i < 4; i++) {
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ivec2 radius = getRadius[i] ;
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#ifdef DISTANT_HORIZONS
float offsetDepth = sqrt(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling,0).a/65000.0);
#else
float offsetDepth = ld(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling, 0).r);
#endif
float EDGES = abs(offsetDepth - referenceDepth) < diffThreshold ? 1.0 : 1e-5;
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RESULT += texelFetch2D(tex, posColor + radius + pos, 0) * EDGES;
SUM += EDGES;
}
// return vec4(1) * SUM;
return RESULT / SUM;
}
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void BilateralUpscale_REUSE_Z(sampler2D tex1, sampler2D tex2, sampler2D depth, vec2 coord, float referenceDepth, inout vec2 ambientEffects, inout vec3 filteredShadow, bool hand){
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ivec2 scaling = ivec2(1.0);
ivec2 posDepth = ivec2(coord) * scaling;
ivec2 posColor = ivec2(coord);
ivec2 pos = ivec2(gl_FragCoord.xy*texelSize + 1);
ivec2 getRadius[4] = ivec2[](
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ivec2(-1,-1),
ivec2( 1,-1),
ivec2( 1, 1),
ivec2(-1, 1)
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);
#ifdef DISTANT_HORIZONS
float diffThreshold = 0.0005;
#else
float diffThreshold = 0.005;
#endif
vec3 shadow_RESULT = vec3(0.0);
vec2 ssao_RESULT = vec2(0.0);
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float SUM = 1.0;
#ifdef LIGHTING_EFFECTS_BLUR_FILTER
for (int i = 0; i < 4; i++) {
ivec2 radius = getRadius[i];
#ifdef DISTANT_HORIZONS
float offsetDepth = sqrt(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling,0).a/65000.0);
#else
float offsetDepth = ld(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling, 0).r);
#endif
float EDGES = abs(offsetDepth - referenceDepth) < diffThreshold ? 1.0 : 1e-5;
#ifdef Variable_Penumbra_Shadows
shadow_RESULT += texelFetch2D(tex1, posColor + radius + pos, 0).rgb * EDGES;
#endif
#if indirect_effect == 1
ssao_RESULT += texelFetch2D(tex2, posColor + radius + pos, 0).rg * EDGES;
#endif
SUM += EDGES;
}
#endif
#ifdef Variable_Penumbra_Shadows
shadow_RESULT += texture2D(tex1, gl_FragCoord.xy*texelSize).rgb;
filteredShadow = shadow_RESULT/SUM;
#endif
#if indirect_effect == 1
ssao_RESULT += texture2D(tex2, gl_FragCoord.xy*texelSize).rg;
ambientEffects = ssao_RESULT/SUM;
#endif
}
vec4 BilateralUpscale_VLFOG(sampler2D tex, sampler2D depth, vec2 coord, float referenceDepth){
ivec2 scaling = ivec2(1.0/VL_RENDER_RESOLUTION);
ivec2 posDepth = ivec2(coord*VL_RENDER_RESOLUTION) * scaling;
ivec2 posColor = ivec2(coord*VL_RENDER_RESOLUTION);
ivec2 pos = ivec2(gl_FragCoord.xy*texelSize + 1);
ivec2 getRadius[5] = ivec2[](
ivec2(-1,-1),
ivec2( 1, 1),
ivec2(-1, 1),
ivec2( 1,-1),
ivec2( 0, 0)
);
#ifdef DISTANT_HORIZONS
float diffThreshold = 0.01;
#else
float diffThreshold = zMults.x;
#endif
vec4 RESULT = vec4(0.0);
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float SUM = 0.0;
for (int i = 0; i < 4; i++) {
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ivec2 radius = getRadius[i];
#ifdef DISTANT_HORIZONS
float offsetDepth = sqrt(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling,0).a/65000.0);
#else
float offsetDepth = ld(texelFetch2D(depth, posDepth + radius * scaling + pos * scaling, 0).r);
#endif
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float EDGES = abs(offsetDepth - referenceDepth) < diffThreshold ? 1.0 : 1e-5;
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RESULT += texelFetch2D(tex, posColor + radius + pos, 0) * EDGES;
SUM += EDGES;
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}
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return RESULT / SUM;
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}
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#ifdef OVERWORLD_SHADER
float ComputeShadowMap(in vec3 projectedShadowPosition, float distortFactor, float noise, float shadowBlockerDepth, float NdotL, float maxDistFade, inout vec3 directLightColor, inout float FUNNYSHADOW, bool isSSS){
if(maxDistFade <= 0.0) return 1.0;
float backface = NdotL <= 0.0 ? 1.0 : 0.0;
float shadowmap = 0.0;
vec3 translucentTint = vec3(0.0);
#ifdef BASIC_SHADOW_FILTER
int samples = SHADOW_FILTER_SAMPLE_COUNT;
float rdMul = shadowBlockerDepth*distortFactor*d0*k/shadowMapResolution;
for(int i = 0; i < samples; i++){
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// vec2 offsetS = tapLocation_simple(i, 7, 9, noise) * 0.5;
vec2 offsetS = CleanSample(i, samples - 1, noise) * 0.3;
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projectedShadowPosition.xy += rdMul*offsetS;
#else
int samples = 1;
#endif
#ifdef TRANSLUCENT_COLORED_SHADOWS
// determine when opaque shadows are overlapping translucent shadows by getting the difference of opaque depth and translucent depth
float shadowDepthDiff = pow(clamp((shadow2D(shadowtex1, projectedShadowPosition).x - projectedShadowPosition.z*0.6)*2.0,0.0,1.0),2.0);
// get opaque shadow data to get opaque data from translucent shadows.
float opaqueShadow = shadow2D(shadowtex0, projectedShadowPosition).x;
shadowmap += max(opaqueShadow, shadowDepthDiff);
// get translucent shadow data
vec4 translucentShadow = texture2D(shadowcolor0, projectedShadowPosition.xy);
// this curve simply looked the nicest. it has no other meaning.
float shadowAlpha = pow(1.0 - pow(translucentShadow.a,5.0),0.2);
FUNNYSHADOW = shadowAlpha;
// normalize the color to remove luminance, and keep the hue. remove all opaque color.
// mulitply shadow alpha to shadow color, but only on surfaces facing the lightsource. this is a tradeoff to protect subsurface scattering's colored shadow tint from shadow bias on the back of the caster.
translucentShadow.rgb = max(normalize(translucentShadow.rgb + 0.0001), max(opaqueShadow, 1.0-shadowAlpha)) * max(shadowAlpha, backface * (1.0 - shadowDepthDiff));
float translucentMask = 1 - max(shadowDepthDiff-opaqueShadow, 0);
// make it such that full alpha areas that arent in a shadow have a value of 1.0 instead of 0.0
translucentTint += mix(translucentShadow.rgb, vec3(1.0), opaqueShadow*shadowDepthDiff);
#else
shadowmap += shadow2D(shadow, projectedShadowPosition).x;
#endif
#ifdef BASIC_SHADOW_FILTER
}
#endif
#ifdef TRANSLUCENT_COLORED_SHADOWS
// tint the lightsource color with the translucent shadow color
directLightColor *= mix(vec3(1.0), translucentTint.rgb / samples, maxDistFade);
#endif
// return maxDistFade;
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return shadowmap / samples;
// return mix(1.0, shadowmap / samples, maxDistFade);
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}
#endif
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float CustomPhase(float LightPos){
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float PhaseCurve = 1.0 - LightPos;
float Final = exp2(sqrt(PhaseCurve) * -25.0);
Final += exp(PhaseCurve * -10.0)*0.5;
return Final;
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}
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vec3 SubsurfaceScattering_sun(vec3 albedo, float Scattering, float Density, float lightPos, float shadows, float distantSSS){
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Scattering *= sss_density_multiplier;
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float density = 0.0001 + Density*2.0;
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float scatterDepth = max(1.0 - Scattering/density,0.0);
scatterDepth = exp((1.0-scatterDepth) * -7.0);
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scatterDepth = mix(exp(Scattering * -10.0), scatterDepth, distantSSS);
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// this is for SSS when there is no shadow blocker depth
#if defined BASIC_SHADOW_FILTER && defined Variable_Penumbra_Shadows
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scatterDepth = max(scatterDepth, pow(shadows, 0.5 + (1.0-Density) * 2.0) );
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#else
scatterDepth = exp(-7.0 * pow(1.0-shadows,3.0))*min(2.0-sss_density_multiplier,1.0);
#endif
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// PBR at its finest :clueless:
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vec3 absorbColor = exp(max(luma(albedo) - albedo*vec3(1.0,1.1,1.2), 0.0) * -(20.0 - 19*scatterDepth) * sss_absorbance_multiplier);
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vec3 scatter = scatterDepth * absorbColor * pow(Density, LabSSS_Curve);
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scatter *= 1.0 + CustomPhase(lightPos)*6.0; // ~10x brighter at the peak
return scatter;
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}
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vec3 SubsurfaceScattering_sky(vec3 albedo, float Scattering, float Density){
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Scattering *= sss_density_multiplier;
float scatterDepth = 1.0 - pow(Scattering, 0.5 + Density * 2.5);
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// PBR at its finest :clueless:
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vec3 absorbColor = exp(max(luma(albedo) - albedo*vec3(1.0,1.1,1.2), 0.0) * -(15.0 - 10.0*scatterDepth) * sss_absorbance_multiplier * 0.01);
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vec3 scatter = scatterDepth * absorbColor * pow(Density, LabSSS_Curve);
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return scatter;
}
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void main() {
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vec3 DEBUG = vec3(1.0);
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////// --------------- SETUP STUFF --------------- //////
vec2 texcoord = gl_FragCoord.xy*texelSize;
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vec2 bnoise = blueNoise(gl_FragCoord.xy).rg;
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int seed = (frameCounter%40000) + frameCounter*2;
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float noise = fract(R2_samples(seed).y + bnoise.y);
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float noise_2 = R2_dither();
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float z0 = texture2D(depthtex0,texcoord).x;
float z = texture2D(depthtex1,texcoord).x;
float swappedDepth = z;
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bool isDHrange = z >= 1.0;
#ifdef DISTANT_HORIZONS
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float DH_mixedLinearZ = sqrt(texture2D(colortex12,texcoord).a/65000.0);
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float DH_depth0 = texture2D(dhDepthTex,texcoord).x;
float DH_depth1 = texture2D(dhDepthTex1,texcoord).x;
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float depthOpaque = z;
float depthOpaqueL = linearizeDepthFast(depthOpaque, near, farPlane);
#ifdef DISTANT_HORIZONS
float dhDepthOpaque = DH_depth1;
float dhDepthOpaqueL = linearizeDepthFast(dhDepthOpaque, dhNearPlane, dhFarPlane);
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if (depthOpaque >= 1.0 || (dhDepthOpaqueL < depthOpaqueL && dhDepthOpaque > 0.0)){
depthOpaque = dhDepthOpaque;
depthOpaqueL = dhDepthOpaqueL;
}
#endif
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swappedDepth = depthOpaque;
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#else
float DH_depth0 = 0.0;
float DH_depth1 = 0.0;
#endif
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////// --------------- UNPACK OPAQUE GBUFFERS --------------- //////
vec4 data = texture2D(colortex1,texcoord);
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vec4 dataUnpacked0 = vec4(decodeVec2(data.x),decodeVec2(data.y)); // albedo, masks
vec4 dataUnpacked1 = vec4(decodeVec2(data.z),decodeVec2(data.w)); // normals, lightmaps
// vec4 dataUnpacked2 = vec4(decodeVec2(data.z),decodeVec2(data.w));
vec3 albedo = toLinear(vec3(dataUnpacked0.xz,dataUnpacked1.x));
vec3 normal = decode(dataUnpacked0.yw);
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vec2 lightmap = dataUnpacked1.yz;
lightmap.xy = min(max(lightmap.xy - 0.05,0.0)*1.06,1.0); // small offset to hide flickering from precision error in the encoding/decoding on values close to 1.0 or 0.0
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#if !defined OVERWORLD_SHADER
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lightmap.y = 1.0;
#endif
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// lightmap.y = 0.0;
// if(isDHrange) lightmap.y = pow(lightmap.y,25);
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// if(isEyeInWater == 1) lightmap.y = max(lightmap.y, 0.75);
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////// --------------- UNPACK MISC --------------- //////
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vec4 SpecularTex = texture2D(colortex8,texcoord);
float LabSSS = clamp((-65.0 + SpecularTex.z * 255.0) / 190.0 ,0.0,1.0);
vec4 normalAndAO = texture2D(colortex15,texcoord);
vec3 FlatNormals = normalAndAO.rgb * 2.0 - 1.0;
vec3 slopednormal = normal;
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float vanilla_AO = z < 1.0 ? clamp(normalAndAO.a,0,1) : 0.0;
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normalAndAO.a = clamp(pow(normalAndAO.a*5,4),0,1);
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if(isDHrange){
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FlatNormals = normal;
normal = viewToWorld(normal);
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slopednormal = normal;
}
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////// --------------- MASKS/BOOLEANS --------------- //////
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// 1.0-0.8 ???
// 0.75 = hand mask
// 0.60 = grass mask
// 0.55 = leaf mask (for ssao-sss)
// 0.50 = lightning bolt mask
// 0.45 = entity mask
float opaqueMasks = dataUnpacked1.w;
// 1.0 = water mask
// 0.9 = entity mask
// 0.8 = reflective entities
// 0.7 = reflective blocks
float translucentMasks = texture2D(colortex7, texcoord).a;
bool isWater = translucentMasks > 0.99;
// bool isReflectiveEntity = abs(translucentMasks - 0.8) < 0.01;
// bool isReflective = abs(translucentMasks - 0.7) < 0.01 || isWater || isReflectiveEntity;
// bool isEntity = abs(translucentMasks - 0.9) < 0.01 || isReflectiveEntity;
bool lightningBolt = abs(opaqueMasks-0.5) <0.01;
bool isLeaf = abs(opaqueMasks-0.55) <0.01;
bool entities = abs(opaqueMasks-0.45) < 0.01;
bool isGrass = abs(opaqueMasks-0.60) < 0.01;
bool hand = abs(opaqueMasks-0.75) < 0.01 && z < 1.0;
// bool blocklights = abs(opaqueMasks-0.8) <0.01;
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if(hand){
convertHandDepth(z);
convertHandDepth(z0);
}
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#ifdef DISTANT_HORIZONS
vec3 viewPos = toScreenSpace_DH(texcoord/RENDER_SCALE-TAA_Offset*texelSize*0.5, z, DH_depth1);
#else
vec3 viewPos = toScreenSpace(vec3(texcoord/RENDER_SCALE - TAA_Offset*texelSize*0.5,z));
#endif
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vec3 feetPlayerPos = mat3(gbufferModelViewInverse) * viewPos;
vec3 feetPlayerPos_normalized = normVec(feetPlayerPos);
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#ifdef POM
#ifdef Horrible_slope_normals
vec3 ApproximatedFlatNormal = normalize(cross(dFdx(feetPlayerPos), dFdy(feetPlayerPos))); // it uses depth that has POM written to it.
slopednormal = normalize(clamp(normal, ApproximatedFlatNormal*2.0 - 1.0, ApproximatedFlatNormal*2.0 + 1.0) );
#endif
#endif
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////// --------------- COLORS --------------- //////
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float dirtAmount = Dirt_Amount + 0.01;
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vec3 waterEpsilon = vec3(Water_Absorb_R, Water_Absorb_G, Water_Absorb_B);
vec3 dirtEpsilon = vec3(Dirt_Absorb_R, Dirt_Absorb_G, Dirt_Absorb_B);
vec3 totEpsilon = dirtEpsilon*dirtAmount + waterEpsilon;
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vec3 Absorbtion = vec3(1.0);
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vec3 AmbientLightColor = vec3(0.0);
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vec3 MinimumLightColor = vec3(1.0);
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vec3 Indirect_lighting = vec3(0.0);
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vec3 Indirect_SSS = vec3(0.0);
vec3 DirectLightColor = vec3(0.0);
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vec3 Direct_lighting = vec3(0.0);
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vec3 Direct_SSS = vec3(0.0);
float cloudShadow = 1.0;
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float Shadows = 1.0;
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float NdotL = 1.0;
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float lightLeakFix = clamp(pow(eyeBrightnessSmooth.y/240. + lightmap.y,2.0) ,0.0,1.0);
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#ifdef OVERWORLD_SHADER
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DirectLightColor = lightCol.rgb / 80.0;
AmbientLightColor = averageSkyCol_Clouds / 30.0;
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#ifdef PER_BIOME_ENVIRONMENT
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// BiomeSunlightColor(DirectLightColor);
vec3 biomeDirect = DirectLightColor;
vec3 biomeIndirect = AmbientLightColor;
float inBiome = BiomeVLFogColors(biomeDirect, biomeIndirect);
float maxDistance = inBiome * min(max(1.0 - length(feetPlayerPos)/(32*8),0.0)*2.0,1.0);
DirectLightColor = mix(DirectLightColor, biomeDirect, maxDistance);
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#endif
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bool inShadowmapBounds = false;
#endif
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MinimumLightColor = MinimumLightColor + 0.7 * MinimumLightColor * dot(slopednormal, feetPlayerPos_normalized);
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////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////// START DRAW ////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////
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if (swappedDepth >= 1.0) {
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vec3 Background = vec3(0.0);
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#ifdef OVERWORLD_SHADER
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float atmosphereGround = 1.0 - exp2(-50.0 * pow(clamp(feetPlayerPos_normalized.y+0.025,0.0,1.0),2.0) ); // darken the ground in the sky.
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#if RESOURCEPACK_SKY == 1 || RESOURCEPACK_SKY == 0 || RESOURCEPACK_SKY == 3
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// vec3 orbitstar = vec3(feetPlayerPos_normalized.x,abs(feetPlayerPos_normalized.y),feetPlayerPos_normalized.z); orbitstar.x -= WsunVec.x*0.2;
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vec3 orbitstar = normalize(mat3(gbufferModelViewInverse) * toScreenSpace(vec3(texcoord/RENDER_SCALE,1.0)));
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float radiance = 2.39996 - (worldTime + worldDay*24000.0) / 24000.0;
// float radiance = 2.39996 + frameTimeCounter;
mat2 rotationMatrix = mat2(vec2(cos(radiance), -sin(radiance)), vec2(sin(radiance), cos(radiance)));
orbitstar.xy *= rotationMatrix;
Background += stars(orbitstar) * 10.0 * clamp(-unsigned_WsunVec.y*2.0,0.0,1.0);
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#if !defined ambientLight_only && (RESOURCEPACK_SKY == 1 || RESOURCEPACK_SKY == 0)
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Background += drawSun(dot(lightCol.a * WsunVec, feetPlayerPos_normalized),0, DirectLightColor,vec3(0.0));
Background += drawMoon(feetPlayerPos_normalized, lightCol.a * WsunVec, DirectLightColor*20, Background);
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#endif
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Background *= atmosphereGround;
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#endif
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vec3 Sky = skyFromTex(feetPlayerPos_normalized, colortex4)/30.0 * Sky_Brightness;
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Background += Sky;
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#endif
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#if RESOURCEPACK_SKY == 1 || RESOURCEPACK_SKY == 2 || RESOURCEPACK_SKY == 3
vec3 resourcePackskyBox = toLinear(texture2D(colortex10, texcoord).rgb * 5.0) * 15.0 * clamp(unsigned_WsunVec.y*2.0,0.1,1.0);
#ifdef SKY_GROUND
resourcePackskyBox *= atmosphereGround;
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#endif
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Background += resourcePackskyBox;
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#endif
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#if defined OVERWORLD_SHADER && defined VOLUMETRIC_CLOUDS && !defined CLOUDS_INTERSECT_TERRAIN
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vec4 Clouds = texture2D_bicubic_offset(colortex0, texcoord*CLOUDS_QUALITY, noise, RENDER_SCALE.x);
Background = Background * Clouds.a + Clouds.rgb;
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#endif
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gl_FragData[0].rgb = clamp(fp10Dither(Background, triangularize(noise_2)), 0.0, 65000.);
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} else {
feetPlayerPos += gbufferModelViewInverse[3].xyz;
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////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////// FILTER STUFF //////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////
vec3 filteredShadow = vec3(1.412,1.0,0.0);
vec2 SSAO_SSS = vec2(1.0);
#if defined DISTANT_HORIZONS && defined DH_AMBIENT_OCCLUSION
BilateralUpscale_REUSE_Z(colortex3, colortex14, colortex12, gl_FragCoord.xy-1.5, DH_mixedLinearZ, SSAO_SSS, filteredShadow, hand);
#else
BilateralUpscale_REUSE_Z(colortex3, colortex14, depthtex0, gl_FragCoord.xy-1.5, ld(z0), SSAO_SSS, filteredShadow, hand);
#endif
float ShadowBlockerDepth = filteredShadow.y;
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////////////////////////////////////////////////////////////////////////////////////
///////////////////////////// MAJOR LIGHTSOURCE STUFF ////////////////////////
////////////////////////////////////////////////////////////////////////////////////
#ifdef OVERWORLD_SHADER
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float LM_shadowMapFallback = min(max(lightmap.y-0.8, 0.0) * 25,1.0);
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float LightningPhase = 0.0;
vec3 LightningFlashLighting = Iris_Lightningflash(feetPlayerPos, lightningBoltPosition.xyz, slopednormal, LightningPhase) * pow(lightmap.y,10);
NdotL = clamp((-15 + dot(slopednormal, WsunVec)*255.0) / 240.0 ,0.0,1.0);
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// NdotL = 1;
float flatNormNdotL = clamp((-15 + dot(viewToWorld(FlatNormals), WsunVec)*255.0) / 240.0 ,0.0,1.0);
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// setup shadow projection
vec3 shadowPlayerPos = mat3(gbufferModelViewInverse) * viewPos + gbufferModelViewInverse[3].xyz;
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if(!hand) GriAndEminShadowFix(shadowPlayerPos, viewToWorld(FlatNormals), vanilla_AO, lightmap.y);
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vec3 projectedShadowPosition = mat3(shadowModelView) * shadowPlayerPos + shadowModelView[3].xyz;
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projectedShadowPosition = diagonal3_old(shadowProjection) * projectedShadowPosition + shadowProjection[3].xyz;
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#if OPTIMIZED_SHADOW_DISTANCE > 0
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float shadowMapFalloff = smoothstep(0.0, 1.0, min(max(1.0 - length(feetPlayerPos) / (shadowDistance+16.0),0.0)*5.0,1.0));
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float shadowMapFalloff2 = smoothstep(0.0, 1.0, min(max(1.0 - length(feetPlayerPos) / shadowDistance,0.0)*5.0,1.0));
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#else
vec3 shadowEdgePos = projectedShadowPosition * vec3(0.4,0.4,0.5/6.0) + vec3(0.5,0.5,0.12);
float fadeLength = max((shadowDistance/256)*30,10.0);
vec3 cubicRadius = clamp( min((1.0-shadowEdgePos)*fadeLength, shadowEdgePos*fadeLength),0.0,1.0);
float shadowmapFade = cubicRadius.x*cubicRadius.y*cubicRadius.z;
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shadowmapFade = 1.0 - pow(1.0-pow(shadowmapFade,1.5),3.0);
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float shadowMapFalloff = shadowmapFade;
float shadowMapFalloff2 = shadowmapFade;
#endif
// un-distort
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#ifdef DISTORT_SHADOWMAP
float distortFactor = calcDistort(projectedShadowPosition.xy);
projectedShadowPosition.xy *= distortFactor;
#else
float distortFactor = 1.0;
#endif
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projectedShadowPosition = projectedShadowPosition * vec3(0.5,0.5,0.5/6.0) + vec3(0.5,0.5,0.5) ;
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float ShadowAlpha = 0.0; // this is for subsurface scattering later.
Shadows = ComputeShadowMap(projectedShadowPosition, distortFactor, noise_2, filteredShadow.x, flatNormNdotL, shadowMapFalloff, DirectLightColor, ShadowAlpha, LabSSS > 0.0);
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// transition to fallback lightmap shadow mask.
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Shadows = mix(isWater ? lightLeakFix : LM_shadowMapFallback, Shadows, shadowMapFalloff);
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#ifdef OLD_LIGHTLEAK_FIX
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if (isEyeInWater == 0) Shadows *= lightLeakFix; // light leak fix
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#endif
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#endif
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////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////// UNDER WATER SHADING ////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////////////////
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if ((isEyeInWater == 0 && isWater) || (isEyeInWater == 1 && !isWater)){
#ifdef DISTANT_HORIZONS
vec3 viewPos0 = toScreenSpace_DH(texcoord/RENDER_SCALE-TAA_Offset*texelSize*0.5, z0, DH_depth0);
#else
vec3 viewPos0 = toScreenSpace(vec3(texcoord/RENDER_SCALE-TAA_Offset*texelSize*0.5,z0));
#endif
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float Vdiff = distance(viewPos, viewPos0)*mix(5.0,2.0,clamp(pow(eyeBrightnessSmooth.y/240. + lightmap.y,2.0) ,0.0,1.0));
float estimatedDepth = Vdiff * abs(feetPlayerPos_normalized.y); //assuming water plane
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// make it such that the estimated depth flips to be correct when entering water.
if (isEyeInWater == 1){
estimatedDepth = 40.0 * pow(max(1.0-lightmap.y,0.0),2.0);
MinimumLightColor = vec3(10.0);
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}
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float depthfalloff = 1.0 - clamp(exp(-0.1*estimatedDepth),0.0,1.0);
float estimatedSunDepth = Vdiff; //assuming water plane
Absorbtion = mix(exp(-2.0 * totEpsilon * estimatedDepth), exp(-8.0 * totEpsilon), depthfalloff);
// apply caustics to the lighting, and make sure they dont look weird
DirectLightColor *= mix(1.0, waterCaustics(feetPlayerPos + cameraPosition, WsunVec)*WATER_CAUSTICS_BRIGHTNESS + 0.25, clamp(estimatedDepth,0,1));
}
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#ifdef END_SHADER
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float vortexBounds = clamp(vortexBoundRange - length(feetPlayerPos+cameraPosition), 0.0,1.0);
vec3 lightPos = LightSourcePosition(feetPlayerPos+cameraPosition, cameraPosition,vortexBounds);
float lightningflash = texelFetch2D(colortex4,ivec2(1,1),0).x/150.0;
vec3 lightColors = LightSourceColors(vortexBounds, lightningflash);
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float end_NdotL = clamp(dot(slopednormal, normalize(-lightPos))*0.5+0.5,0.0,1.0);
end_NdotL *= end_NdotL;
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float fogShadow = GetCloudShadow(feetPlayerPos+cameraPosition, lightPos);
float endPhase = endFogPhase(lightPos);
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Direct_lighting += lightColors * endPhase * end_NdotL * fogShadow;
AmbientLightColor += lightColors * (endPhase*endPhase) * (1.0-exp(vec3(0.6,2.0,2) * -(endPhase*0.1))) ;
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#endif
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/////////////////////////////////////////////////////////////////////////////////
///////////////////////////// INDIRECT LIGHTING /////////////////////////////
/////////////////////////////////////////////////////////////////////////////////
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#if defined OVERWORLD_SHADER
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float skylight = 1.0;
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#if indirect_effect == 0 || indirect_effect == 1 || indirect_effect == 2
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float SkylightDir = (slopednormal / dot(abs(slopednormal),vec3(1.0))).y*1.5;
if(isGrass) SkylightDir = 1.5;
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skylight = max(pow(viewToWorld(FlatNormals).y*0.5+0.5,0.1) + SkylightDir, 0.2 + (1-lightmap.y)*0.8);
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#if indirect_effect == 1
skylight = min(skylight, mix(0.95, 2.5, pow(1-pow(1-SSAO_SSS.x, 0.5),2.0) ));
#endif
#endif
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#if indirect_effect == 3 || indirect_effect == 4
skylight = 2.5;
#endif
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Indirect_lighting += doIndirectLighting(AmbientLightColor * skylight, MinimumLightColor, lightmap.y);
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#endif
#ifdef NETHER_SHADER
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Indirect_lighting = skyCloudsFromTexLOD2(normal, colortex4, 6).rgb / 30.0;
vec3 up = skyCloudsFromTexLOD2(vec3(0.0,1.0,0.0), colortex4, 6).rgb / 30.0;
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#if indirect_effect == 1
Indirect_lighting = mix(up, Indirect_lighting, clamp(pow(1.0-pow(1.0-SSAO_SSS.x, 0.5),2.0),0.0,1.0));
#endif
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AmbientLightColor = Indirect_lighting / 5.0;
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#endif
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#ifdef END_SHADER
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Indirect_lighting = vec3(0.3,0.6,1.0) * 0.5;
Indirect_lighting = Indirect_lighting + 0.7*mix(-Indirect_lighting, Indirect_lighting * dot(slopednormal, feetPlayerPos_normalized), clamp(pow(1.0-pow(1.0-SSAO_SSS.x, 0.5),2.0),0.0,1.0));
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#endif
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#ifdef IS_LPV_ENABLED
vec3 normalOffset = vec3(0.0);
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if (any(greaterThan(abs(FlatNormals), vec3(1.0e-6))))
normalOffset = 0.5*viewToWorld(FlatNormals);
#if LPV_NORMAL_STRENGTH > 0
vec3 texNormalOffset = -normalOffset + slopednormal;
normalOffset = mix(normalOffset, texNormalOffset, (LPV_NORMAL_STRENGTH*0.01));
#endif
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vec3 lpvPos = GetLpvPosition(feetPlayerPos) + normalOffset;
#else
const vec3 lpvPos = vec3(0.0);
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#endif
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vec3 blockLightColor = doBlockLightLighting( vec3(TORCH_R,TORCH_G,TORCH_B), lightmap.x, exposure, feetPlayerPos, lpvPos);
Indirect_lighting += blockLightColor;
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/////////////////////////////////////////////////////////////////////////////////////
///////////////////////////// EFFECTS FOR INDIRECT /////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////
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float SkySSS = 1.0;
vec3 AO = vec3(1.0);
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#if indirect_effect == 0
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AO = vec3(pow(1.0 - vanilla_AO*vanilla_AO,5.0));
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Indirect_lighting *= AO;
#endif
#if indirect_effect == 1
SkySSS = SSAO_SSS.y;
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float vanillaAO_curve = pow(1.0 - vanilla_AO*vanilla_AO,5.0);
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float SSAO_curve = pow(SSAO_SSS.x,6.0);
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// use the min of vanilla ao so they dont overdarken eachother
AO = vec3( min(vanillaAO_curve, SSAO_curve) );
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Indirect_lighting *= AO;
#endif
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// // GTAO... this is so dumb but whatevverrr
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#if indirect_effect == 2
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float vanillaAO_curve = pow(1.0 - vanilla_AO*vanilla_AO,5.0);
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vec2 r2 = fract(R2_samples((frameCounter%40000) + frameCounter*2) + bnoise);
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float GTAO = !hand ? ambient_occlusion(vec3(texcoord/RENDER_SCALE-TAA_Offset*texelSize*0.5, z), viewPos, worldToView(slopednormal), r2) : 1.0;
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AO = vec3(min(vanillaAO_curve,GTAO));
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Indirect_lighting *= AO;
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#endif
// RTAO and/or SSGI
#if indirect_effect == 3 || indirect_effect == 4
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if(!hand) Indirect_lighting = ApplySSRT(Indirect_lighting, blockLightColor, MinimumLightColor, viewPos, normal, vec3(bnoise, noise_2), lightmap.y, isGrass, isDHrange);
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#endif
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#if defined END_SHADER
Direct_lighting *= AO;
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#endif
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////////////////////////////////////////////////////////////////////////////////
///////////////////////// SUB SURFACE SCATTERING ////////////////////////////
////////////////////////////////////////////////////////////////////////////////
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///////////////////////////// SKY SSS /////////////////////////////
#if defined Ambient_SSS && defined OVERWORLD_SHADER && indirect_effect == 1
if (!hand){
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vec3 ambientColor = (AmbientLightColor*2.5) * ambient_brightness; // x2.5 to match the brightness of upfacing skylight
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Indirect_SSS = SubsurfaceScattering_sky(albedo, SkySSS, LabSSS);
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Indirect_SSS *= lightmap.y*lightmap.y*lightmap.y;
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Indirect_SSS *= AO;
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// apply to ambient light.
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Indirect_lighting = max(Indirect_lighting, Indirect_SSS * ambientColor * ambientsss_brightness);
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// #ifdef OVERWORLD_SHADER
// if(LabSSS > 0.0) Indirect_lighting += (1.0-SkySSS) * LightningPhase * lightningEffect * pow(lightmap.y,10);
// #endif
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}
#endif
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//////////////////////////////// SUN SSS ////////////////////////////////
#if SSS_TYPE != 0 && defined OVERWORLD_SHADER
float sunSSS_density = LabSSS;
float SSS_shadow = ShadowAlpha * Shadows;
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#ifdef DISTANT_HORIZONS
shadowMapFalloff2 = smoothstep(0.0, 1.0, min(max(1.0 - length(feetPlayerPos) / min(shadowDistance, max(far-32.0,32.0)),0.0)*5.0,1.0));
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#endif
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#ifndef RENDER_ENTITY_SHADOWS
if(entities) sunSSS_density = 0.0;
#endif
#ifdef SCREENSPACE_CONTACT_SHADOWS
vec2 SS_directLight = SSRT_Shadows(toScreenSpace_DH(texcoord/RENDER_SCALE, z, DH_depth1), isDHrange, normalize(WsunVec*mat3(gbufferModelViewInverse)), interleaved_gradientNoise(), sunSSS_density > 0.0 && shadowMapFalloff2 < 1.0, hand);
// combine shadowmap with a minumum shadow determined by the screenspace shadows.
Shadows = min(Shadows, SS_directLight.r);
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// Shadows = SS_directLight.r;
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// combine shadowmap blocker depth with a minumum determined by the screenspace shadows, starting after the shadowmap ends
ShadowBlockerDepth = mix(SS_directLight.g, ShadowBlockerDepth, shadowMapFalloff2);
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// ShadowBlockerDepth = max( SS_directLight.g,0.0);
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#endif
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Direct_SSS = SubsurfaceScattering_sun(albedo, ShadowBlockerDepth, sunSSS_density, clamp(dot(feetPlayerPos_normalized, WsunVec),0.0,1.0), SSS_shadow, shadowMapFalloff2);
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Direct_SSS *= lightLeakFix;
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#ifndef SCREENSPACE_CONTACT_SHADOWS
Direct_SSS = mix(vec3(0.0), Direct_SSS, shadowMapFalloff2);
#endif
#ifdef CLOUDS_SHADOWS
cloudShadow = GetCloudShadow(feetPlayerPos);
Shadows *= cloudShadow;
Direct_SSS *= cloudShadow;
#endif
#endif
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/////////////////////////////////////////////////////////////////////////
///////////////////////////// FINALIZE /////////////////////////////
/////////////////////////////////////////////////////////////////////////
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#ifdef SSS_view
albedo = vec3(1);
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NdotL = 0;
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#endif
#ifdef OVERWORLD_SHADER
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Direct_lighting = max(DirectLightColor * NdotL * Shadows, DirectLightColor * Direct_SSS);
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#endif
gl_FragData[0].rgb = (Indirect_lighting + Direct_lighting) * albedo;
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#ifdef Specular_Reflections
vec2 specularNoises = vec2(noise, R2_dither());
DoSpecularReflections(gl_FragData[0].rgb, viewPos, feetPlayerPos_normalized, WsunVec, specularNoises, normal, SpecularTex.r, SpecularTex.g, albedo, DirectLightColor*Shadows*NdotL, lightmap.y, hand);
#endif
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Emission(gl_FragData[0].rgb, albedo, SpecularTex.a, exposure);
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if(lightningBolt) gl_FragData[0].rgb = vec3(77.0, 153.0, 255.0);
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gl_FragData[0].rgb *= Absorbtion;
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}
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if(translucentMasks > 0.0){
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#ifdef DISTANT_HORIZONS
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vec4 vlBehingTranslucents = BilateralUpscale_VLFOG(colortex13, colortex12, gl_FragCoord.xy - 1.5, sqrt(texture2D(colortex12,texcoord).a/65000.0));
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#else
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vec4 vlBehingTranslucents = BilateralUpscale_VLFOG(colortex13, depthtex1, gl_FragCoord.xy - 1.5, ld(z));
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#endif
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gl_FragData[0].rgb = gl_FragData[0].rgb * vlBehingTranslucents.a + vlBehingTranslucents.rgb;
}
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////// DEBUG VIEW STUFF
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#if DEBUG_VIEW == debug_SHADOWMAP
gl_FragData[0].rgb = vec3(0.5) + vec3(1.0) * Shadows * 30.0;
#endif
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#if DEBUG_VIEW == debug_NORMALS
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if(swappedDepth >= 1.0) Direct_lighting = vec3(1.0);
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gl_FragData[0].rgb = normal ;
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#endif
#if DEBUG_VIEW == debug_SPECULAR
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if(swappedDepth >= 1.0) Direct_lighting = vec3(1.0);
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gl_FragData[0].rgb = SpecularTex.rgb;
#endif
#if DEBUG_VIEW == debug_INDIRECT
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if(swappedDepth >= 1.0) Direct_lighting = vec3(5.0);
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gl_FragData[0].rgb = Indirect_lighting;
#endif
#if DEBUG_VIEW == debug_DIRECT
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if(swappedDepth >= 1.0) Direct_lighting = vec3(15.0);
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gl_FragData[0].rgb = Direct_lighting + 0.5;
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#endif
#if DEBUG_VIEW == debug_VIEW_POSITION
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gl_FragData[0].rgb = viewPos * 0.001;
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#endif
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#if DEBUG_VIEW == debug_FILTERED_STUFF
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// if(hideGUI == 1) gl_FragData[0].rgb = vec3(1) * (1.0 - SSAO_SSS.y);
// if(hideGUI == 0) gl_FragData[0].rgb = vec3(1) * (1.0 - SSAO_SSS.x);
if(hideGUI == 0) gl_FragData[0].rgb = vec3(1) * exp(-10*filteredShadow.y);//exp(-7*(1-clamp(1.0 - filteredShadow.x,0.0,1.0)));
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#endif
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// gl_FragData[0].rgb = albedo*30;
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// gl_FragData[0].rgb = vec3(1) * Shadows;
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// if(swappedDepth >= 1.0) gl_FragData[0].rgb = vec3(0.1);
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// gl_FragData[0].rgb = vec3(1) * ld(texture2D(depthtex1, texcoord).r);
// if(texcoord.x > 0.5 )gl_FragData[0].rgb = vec3(1) * ld(texture2D(depthtex0, texcoord).r);
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/* DRAWBUFFERS:3 */
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}