/* BSL Shaders v10 Series by Capt Tatsu https://capttatsu.com */ //Settings// #include "/lib/settings.glsl" //Fragment Shader/////////////////////////////////////////////////////////////////////////////////// #ifdef FSH //Varyings// varying float mat; varying float dist; varying vec2 texCoord, lmCoord; varying vec3 normal, binormal, tangent; varying vec3 sunVec, upVec, eastVec; varying vec3 viewVector; varying vec4 color; //Uniforms// uniform int bedrockLevel; uniform int dhRenderDistance; uniform int frameCounter; uniform int isEyeInWater; uniform int moonPhase; uniform int worldTime; uniform float blindFactor, darknessFactor, nightVision; uniform float cloudHeight; uniform float dhFarPlane; uniform float endFlashIntensity; uniform float far, near; uniform float frameTimeCounter; uniform float rainStrength; uniform float screenBrightness; uniform float shadowFade; uniform float timeAngle, timeBrightness; uniform float viewWidth, viewHeight; uniform ivec2 eyeBrightnessSmooth; uniform vec3 cameraPosition, previousCameraPosition; uniform mat4 dhProjection, dhPreviousProjection, dhProjectionInverse; uniform mat4 gbufferModelView, gbufferPreviousModelView, gbufferModelViewInverse; uniform mat4 shadowProjection; uniform mat4 shadowModelView; uniform sampler2D texture; uniform sampler2D gaux2; uniform sampler2D depthtex1; uniform sampler2D noisetex; uniform sampler2D dhDepthTex1; #if CLOUDS == 2 uniform sampler2D gaux1; #endif #ifdef VOXY uniform int vxRenderDistance; uniform mat4 vxProjInv; uniform sampler2D vxDepthTexOpaque; #endif //Common Variables// float eBS = eyeBrightnessSmooth.y / 240.0; float sunVisibility = clamp(dot( sunVec, upVec) * 10.0 + 0.5, 0.0, 1.0); float moonVisibility = clamp(dot(-sunVec, upVec) * 10.0 + 0.5, 0.0, 1.0); #ifdef WORLD_TIME_ANIMATION float time = float(worldTime) * 0.05 * ANIMATION_SPEED; #else float time = frameTimeCounter * ANIMATION_SPEED; #endif #ifdef ADVANCED_MATERIALS vec2 dcdx = dFdx(texCoord); vec2 dcdy = dFdy(texCoord); #endif vec3 lightVec = sunVec * ((timeAngle < 0.5325 || timeAngle > 0.9675) ? 1.0 : -1.0); mat4 gbufferProjection = dhProjection; mat4 gbufferPreviousProjection = dhPreviousProjection; mat4 gbufferProjectionInverse = dhProjectionInverse; //Common Functions// float GetLuminance(vec3 color) { return dot(color,vec3(0.299, 0.587, 0.114)); } float GetWaterHeightMap(vec3 worldPos, vec2 offset) { float noise = 0.0, noiseA = 0.0, noiseB = 0.0; vec2 wind = vec2(time) * 0.5 * WATER_SPEED; worldPos.xz += worldPos.y * 0.2; #if WATER_NORMALS == 1 offset /= 256.0; noiseA = texture2D(noisetex, (worldPos.xz - wind) / 256.0 + offset).g; noiseB = texture2D(noisetex, (worldPos.xz + wind) / 48.0 + offset).g; #elif WATER_NORMALS == 2 offset /= 256.0; noiseA = texture2D(noisetex, (worldPos.xz - wind) / 256.0 + offset).r; noiseB = texture2D(noisetex, (worldPos.xz + wind) / 96.0 + offset).r; noiseA *= noiseA; noiseB *= noiseB; #endif #if WATER_NORMALS > 0 noise = mix(noiseA, noiseB, WATER_DETAIL); #endif return noise * WATER_BUMP; } vec3 GetParallaxWaves(vec3 worldPos, vec3 viewVector) { vec3 parallaxPos = worldPos; for(int i = 0; i < 4; i++) { float height = -1.25 * GetWaterHeightMap(parallaxPos, vec2(0.0)) + 0.25; parallaxPos.xz += height * viewVector.xy / dist; } return parallaxPos; } vec3 GetWaterNormal(vec3 worldPos, vec3 viewPos, vec3 viewVector) { vec3 waterPos = worldPos + cameraPosition; #if WATER_PIXEL > 0 waterPos = floor(waterPos * WATER_PIXEL) / WATER_PIXEL; #endif #ifdef WATER_PARALLAX waterPos = GetParallaxWaves(waterPos, viewVector); #endif float normalOffset = WATER_SHARPNESS; float fresnel = pow(clamp(1.0 + dot(normalize(normal), normalize(viewPos)), 0.0, 1.0), 8.0); float normalStrength = 0.35 * (1.0 - fresnel); float h1 = GetWaterHeightMap(waterPos, vec2( normalOffset, 0.0)); float h2 = GetWaterHeightMap(waterPos, vec2(-normalOffset, 0.0)); float h3 = GetWaterHeightMap(waterPos, vec2(0.0, normalOffset)); float h4 = GetWaterHeightMap(waterPos, vec2(0.0, -normalOffset)); float xDelta = (h2 - h1) / normalOffset; float yDelta = (h4 - h3) / normalOffset; vec3 normalMap = vec3(xDelta, yDelta, 1.0 - (xDelta * xDelta + yDelta * yDelta)); return normalMap * normalStrength + vec3(0.0, 0.0, 1.0 - normalStrength); } //Includes// #include "/lib/color/blocklightColor.glsl" #include "/lib/color/dimensionColor.glsl" #include "/lib/color/lightSkyColor.glsl" #include "/lib/color/skyColor.glsl" #include "/lib/color/specularColor.glsl" #include "/lib/color/waterColor.glsl" #include "/lib/util/dither.glsl" #include "/lib/util/spaceConversion.glsl" #include "/lib/atmospherics/weatherDensity.glsl" #include "/lib/atmospherics/sky.glsl" #include "/lib/atmospherics/clouds.glsl" #include "/lib/atmospherics/fog.glsl" #include "/lib/atmospherics/waterFog.glsl" #include "/lib/lighting/forwardLighting.glsl" #include "/lib/reflections/raytrace.glsl" #include "/lib/reflections/simpleReflections.glsl" #include "/lib/surface/ggx.glsl" #include "/lib/surface/hardcodedEmission.glsl" #ifdef TAA #include "/lib/util/jitter.glsl" #endif //Program// void main() { vec3 screenPos = vec3(gl_FragCoord.xy / vec2(viewWidth, viewHeight), gl_FragCoord.z); float opaqueDepth = texture2D(depthtex1, screenPos.xy).r; if (opaqueDepth < 1.0) discard; vec4 albedo = color; vec3 newNormal = normal; float smoothness = 0.0; vec3 lightAlbedo = vec3(0.0); vec3 vlAlbedo = vec3(1.0); vec3 refraction = vec3(0.0); float cloudBlendOpacity = 1.0; { vec2 lightmap = clamp(lmCoord, vec2(0.0), vec2(1.0)); float water = float(mat > 0.98 && mat < 1.02); float glass = float(mat > 1.98 && mat < 2.02); float translucent = float(mat > 2.98 && mat < 3.02); float portal = float(mat > 3.98 && mat < 4.02); float metalness = 0.0; float emission = portal; float subsurface = 0.0; float basicSubsurface = water; vec3 baseReflectance = vec3(0.04); vec3 hsv = RGB2HSV(albedo.rgb); emission *= GetHardcodedEmission(albedo.rgb, hsv); #ifndef REFLECTION_TRANSLUCENT glass = 0.0; translucent = 0.0; #endif #ifdef TAA vec3 viewPos = ToNDC(vec3(TAAJitter(screenPos.xy, -0.5), screenPos.z)); #else vec3 viewPos = ToNDC(screenPos); #endif vec3 worldPos = ToWorld(viewPos); float dither = Bayer8(gl_FragCoord.xy); float viewLength = length(viewPos); float minDist = (dither - DH_OVERDRAW - 0.75) * 16.0 + far; if (viewLength <= minDist) { discard; } #if CLOUDS == 2 float cloudMaxDistance = 2.0 * far; #ifdef VOXY cloudMaxDistance = max(cloudMaxDistance, vxRenderDistance * 16.0); #endif #ifdef DISTANT_HORIZONS cloudMaxDistance = max(cloudMaxDistance, dhFarPlane); #endif float cloudViewLength = texture2D(gaux1, screenPos.xy).r * cloudMaxDistance; cloudBlendOpacity = step(viewLength, cloudViewLength); if (cloudBlendOpacity == 0) { discard; } // albedo.rgb *= fract(viewLength); #endif vec3 normalMap = vec3(0.0, 0.0, 1.0); mat3 tbnMatrix = mat3(tangent.x, binormal.x, normal.x, tangent.y, binormal.y, normal.y, tangent.z, binormal.z, normal.z); #if WATER_NORMALS == 1 || WATER_NORMALS == 2 if (water > 0.5) { normalMap = GetWaterNormal(worldPos, viewPos, viewVector); newNormal = clamp(normalize(normalMap * tbnMatrix), vec3(-1.0), vec3(1.0)); } #endif #if REFRACTION == 1 refraction = vec3((newNormal.xy - normal.xy) * 0.5 + 0.5, float(albedo.a < 0.95) * water); #elif REFRACTION == 2 refraction = vec3((newNormal.xy - normal.xy) * 0.5 + 0.5, float(albedo.a < 0.95)); #endif #ifdef TOON_LIGHTMAP lightmap = floor(lmCoord * 14.999) / 14.0; lightmap = clamp(lightmap, vec2(0.0), vec2(1.0)); #endif albedo.rgb /= albedo.a; albedo.rgb = pow(albedo.rgb, vec3(2.2)); vlAlbedo = albedo.rgb; #ifdef WHITE_WORLD albedo.rgb = vec3(0.35); #endif if (water > 0.5) { #if WATER_MODE == 0 albedo.rgb = waterColor.rgb * waterColor.a / albedo.a; #elif WATER_MODE == 1 albedo.rgb *= WATER_VI * WATER_VI; #elif WATER_MODE == 2 float waterLuma = length(albedo.rgb / pow(color.rgb, vec3(2.2))); albedo.rgb = waterLuma * waterColor.rgb * waterColor.a; #elif WATER_MODE == 3 albedo.rgb *= WATER_VI * WATER_VI * 2.0; #endif #if WATER_ALPHA_MODE == 0 albedo.a = waterAlpha; #else albedo.a = pow(albedo.a, WATER_VA); #endif vlAlbedo = sqrt(albedo.rgb); baseReflectance = vec3(0.02); } #if WATER_FOG == 1 vec3 fogAlbedo = albedo.rgb; #endif vlAlbedo = mix(vec3(1.0), vlAlbedo, sqrt(albedo.a)) * (1.0 - pow(albedo.a, 64.0)); #ifndef HALF_LAMBERT float NoL = clamp(dot(newNormal, lightVec), 0.0, 1.0); #else float NoL = clamp(dot(newNormal, lightVec) * 0.5 + 0.5, 0.0, 1.0); NoL *= NoL; #endif float NoU = clamp(dot(newNormal, upVec), -1.0, 1.0); float NoE = clamp(dot(newNormal, eastVec), -1.0, 1.0); float vanillaDiffuse = (0.25 * NoU + 0.75) + (0.667 - abs(NoE)) * (1.0 - abs(NoU)) * 0.15; vanillaDiffuse*= vanillaDiffuse; vec3 shadow = vec3(0.0); GetLighting(albedo.rgb, shadow, viewPos, worldPos, normal, lightmap, color.a, NoL, vanillaDiffuse, 1.0, emission, subsurface, basicSubsurface); float fresnel = pow(clamp(1.0 + dot(newNormal, normalize(viewPos)), 0.0, 1.0), 5.0); if (water > 0.5 || ((translucent + glass) > 0.5 && albedo.a < 0.95)) { #if REFLECTION > 0 vec4 reflection = vec4(0.0); vec3 skyReflection = vec3(0.0); float reflectionMask = 0.0; fresnel = fresnel * 0.98 + 0.02; fresnel*= max(1.0 - isEyeInWater * 0.5 * water, 0.5); // fresnel = 1.0; #if REFLECTION == 2 reflection = SimpleReflection(viewPos, newNormal, dither, reflectionMask); reflection.rgb = pow(reflection.rgb * 2.0, vec3(8.0)); #endif if (reflection.a < 1.0) { #ifdef OVERWORLD vec3 skyRefPos = reflect(normalize(viewPos), newNormal); skyReflection = GetSkyColor(skyRefPos, true); #if AURORA > 0 skyReflection += DrawAurora(skyRefPos * 100.0, dither, 12); #endif #if CLOUDS == 1 vec4 cloud = DrawCloudSkybox(skyRefPos * 100.0, 1.0, dither, lightCol, ambientCol, true); skyReflection = mix(skyReflection, cloud.rgb, cloud.a); #endif #if CLOUDS == 2 vec3 cameraPos = GetReflectedCameraPos(worldPos, newNormal); float cloudViewLength = 0.0; vec4 cloud = DrawCloudVolumetric(skyRefPos * 8192.0, cameraPos, 1.0, dither, lightCol, ambientCol, cloudViewLength, true); skyReflection = mix(skyReflection, cloud.rgb, cloud.a); #endif #ifdef CLASSIC_EXPOSURE skyReflection *= 4.0 - 3.0 * eBS; #endif float waterSkyOcclusion = lightmap.y; #if REFLECTION_SKY_FALLOFF > 1 waterSkyOcclusion = clamp(1.0 - (1.0 - waterSkyOcclusion) * REFLECTION_SKY_FALLOFF, 0.0, 1.0); #endif waterSkyOcclusion *= waterSkyOcclusion; skyReflection *= waterSkyOcclusion; #endif #ifdef NETHER skyReflection = netherCol.rgb * 0.04; #endif #ifdef END skyReflection = endCol.rgb * 0.01; #endif skyReflection *= clamp(1.0 - isEyeInWater, 0.0, 1.0); } reflection.rgb = max(mix(skyReflection, reflection.rgb, reflection.a), vec3(0.0)); #if (defined OVERWORLD || defined END) && SPECULAR_HIGHLIGHT == 2 vec3 specularColor = GetSpecularColor(lightmap.y, 0.0, vec3(1.0)); vec3 specular = GetSpecularHighlight(newNormal, viewPos, 0.9, vec3(0.02), specularColor, shadow, color.a); #if ALPHA_BLEND == 0 float specularAlpha = pow(mix(albedo.a, 1.0, fresnel), 2.2) * fresnel; #else float specularAlpha = mix(albedo.a , 1.0, fresnel) * fresnel; #endif reflection.rgb += specular * (1.0 - reflectionMask) / specularAlpha; #endif albedo.rgb = mix(albedo.rgb, reflection.rgb, fresnel); albedo.a = mix(albedo.a, 1.0, fresnel); #endif } #if WATER_FOG == 1 if((isEyeInWater == 0 && water > 0.5) || (isEyeInWater == 1 && water < 0.5)) { float opaqueDepth = texture2D(depthtex1, screenPos.xy).r; vec3 opaqueScreenPos = vec3(gl_FragCoord.xy / vec2(viewWidth, viewHeight), opaqueDepth); #ifdef TAA vec3 opaqueViewPos = ToNDC(vec3(TAAJitter(opaqueScreenPos.xy, -0.5), opaqueScreenPos.z)); #else vec3 opaqueViewPos = ToNDC(opaqueScreenPos); #endif vec4 waterFog = GetWaterFog(opaqueViewPos - viewPos.xyz, fogAlbedo); albedo = mix(waterFog, vec4(albedo.rgb, 1.0), albedo.a); } #endif Fog(albedo.rgb, viewPos); #if ALPHA_BLEND == 0 albedo.rgb = sqrt(max(albedo.rgb, vec3(0.0))); #endif } albedo.a *= cloudBlendOpacity; /* DRAWBUFFERS:01 */ gl_FragData[0] = albedo; gl_FragData[1] = vec4(vlAlbedo, 1.0); } #endif //Vertex Shader///////////////////////////////////////////////////////////////////////////////////// #ifdef VSH //Varyings// varying float mat; varying float dist; varying vec2 texCoord, lmCoord; varying vec3 normal, binormal, tangent; varying vec3 sunVec, upVec, eastVec; varying vec3 viewVector; varying vec4 color; //Uniforms// uniform int worldTime; uniform float frameTimeCounter; uniform float timeAngle; uniform vec3 cameraPosition; uniform vec3 relativeEyePosition; uniform mat4 gbufferModelView, gbufferModelViewInverse; #ifdef TAA uniform int frameCounter; uniform float viewWidth, viewHeight; #endif //Attributes// attribute vec4 mc_Entity; attribute vec4 mc_midTexCoord; attribute vec4 at_tangent; //Common Variables// #ifdef WORLD_TIME_ANIMATION float time = float(worldTime) * 0.05 * ANIMATION_SPEED; #else float time = frameTimeCounter * ANIMATION_SPEED; #endif //Common Functions// float WavingWater(vec3 worldPos) { worldPos += cameraPosition; float fractY = fract(worldPos.y + 0.005); float wave = sin(6.2831854 * (time * 0.7 + worldPos.x * 0.14 + worldPos.z * 0.07)) + sin(6.2831854 * (time * 0.5 + worldPos.x * 0.10 + worldPos.z * 0.20)); if (fractY > 0.01) return wave * 0.0125 * ANIMATION_STRENGTH; return 0.0; } //Includes// #ifdef TAA #include "/lib/util/jitter.glsl" #endif #ifdef WORLD_CURVATURE #include "/lib/vertex/worldCurvature.glsl" #endif //Program// void main() { texCoord = (gl_TextureMatrix[0] * gl_MultiTexCoord0).xy; lmCoord = (gl_TextureMatrix[1] * gl_MultiTexCoord1).xy; lmCoord = clamp((lmCoord - 0.03125) * 1.06667, vec2(0.0), vec2(0.9333, 1.0)); int blockID = dhMaterialId; normal = normalize(gl_NormalMatrix * gl_Normal); binormal = normalize(gbufferModelView[2].xyz); tangent = normalize(gbufferModelView[0].xyz); mat3 tbnMatrix = mat3(tangent.x, binormal.x, normal.x, tangent.y, binormal.y, normal.y, tangent.z, binormal.z, normal.z); viewVector = tbnMatrix * (gl_ModelViewMatrix * gl_Vertex).xyz; dist = length(gl_ModelViewMatrix * gl_Vertex); color = gl_Color; mat = 0.0; if (blockID == DH_BLOCK_WATER) mat = 1.0; const vec2 sunRotationData = vec2( cos(sunPathRotation * 0.01745329251994), -sin(sunPathRotation * 0.01745329251994) ); #ifndef END float ang = fract(timeAngle - 0.25); #else #if defined IS_IRIS || MC_VERSION < 12111 float ang = 0.0; #else float ang = 0.5; #endif #endif ang = (ang + (cos(ang * 3.14159265358979) * -0.5 + 0.5 - ang) / 3.0) * 6.28318530717959; sunVec = normalize((gbufferModelView * vec4(vec3(-sin(ang), cos(ang) * sunRotationData) * 2000.0, 1.0)).xyz); upVec = normalize(gbufferModelView[1].xyz); eastVec = tangent; vec4 position = gbufferModelViewInverse * gl_ModelViewMatrix * gl_Vertex; // #ifdef WAVING_WATER // float istopv = gl_MultiTexCoord0.t < mc_midTexCoord.t ? 1.0 : 0.0; // if (blockID == 200 || blockID == 202 || blockID == 204) position.y += WavingWater(position.xyz); // #endif #ifdef WORLD_CURVATURE position.y -= WorldCurvature(position.xz); #endif gl_Position = gl_ProjectionMatrix * gbufferModelView * position; if (mat == 0.0) gl_Position.z -= 0.00001; #ifdef TAA gl_Position.xy = TAAJitter(gl_Position.xy, gl_Position.w); #endif } #endif