diff options
Diffstat (limited to 'indra/newview/app_settings/shaders/class3/deferred')
| -rw-r--r-- | indra/newview/app_settings/shaders/class3/deferred/softenLightF.glsl | 637 |
1 files changed, 89 insertions, 548 deletions
diff --git a/indra/newview/app_settings/shaders/class3/deferred/softenLightF.glsl b/indra/newview/app_settings/shaders/class3/deferred/softenLightF.glsl index d78c47a36a..50aa93fea6 100644 --- a/indra/newview/app_settings/shaders/class3/deferred/softenLightF.glsl +++ b/indra/newview/app_settings/shaders/class3/deferred/softenLightF.glsl @@ -23,106 +23,6 @@ * $/LicenseInfo$ */ -#define PBR_USE_ATMOS 1 -#define PBR_USE_IBL 1 -#define PBR_USE_SUN 1 - -#define PBR_USE_LINEAR_ALBEDO 1 -#define PBR_USE_DEFAULT_IRRADIANCE 0 // PBR: irradiance, skins/default/textures/default_irradiance.png -#define PBR_USE_IRRADIANCE_HACK 1 - -#define DEBUG_PBR_LIGHT_TYPE 0 // Output no global light to make it easier to see pointLight and spotLight -#define DEBUG_PBR_PACK_ORM0 0 // Rough=0, Metal=0 -#define DEBUG_PBR_PACK_ORM1 0 // Rough=1, Metal=1 -#define DEBUG_PBR_TANGENT1 1 // Tangent = 1,0,0 -#define DEBUG_PBR_VERT2CAM1 0 // vertex2camera = 0,0,1 -#define DEBUG_PBR_SPECLIGHT051 0 // Force specLigh to be 0,0.5,1 - -// Pass input through "as is" -#define DEBUG_PBR_DIFFUSE_MAP 0 // Output: use diffuse in G-Buffer -#define DEBUG_PBR_EMISSIVE 0 // Output: Emissive -#define DEBUG_PBR_METAL 0 // Output: grayscale Metal map -#define DEBUG_PBR_NORMAL_MAP 0 // Output: Normal -- also need to set DEBUG_NORMAL_MAP in pbropaqueF -#define DEBUG_PBR_OCCLUSION 0 // Output: grayscale Occlusion map -#define DEBUG_PBR_ORM 0 // Output: Packed Occlusion Roughness Metal -#define DEBUG_PBR_ROUGH_PERCEPTUAL 0 // Output: grayscale Perceptual Roughness map -#define DEBUG_PBR_ROUGH_ALPHA 0 // Output: grayscale Alpha Roughness - -#define DEBUG_PBR_TANGENT 0 // Output: Tangent -#define DEBUG_PBR_BITANGENT 0 // Output: Bitangent -#define DEBUG_PBR_DOT_BV 0 // Output: graysacle dot(Bitangent,Vertex2Camera) -#define DEBUG_PBR_DOT_TV 0 // Output: grayscale dot(Tangent ,Vertex2Camera) - -// IBL Spec -#define DEBUG_PBR_NORMAL 0 // Output: passed in normal -#define DEBUG_PBR_V2C_RAW 0 // Output: vertex2camera -#define DEBUG_PBR_DOT_NV 0 // Output: grayscale dot(Normal ,Vertex2Camera) -#define DEBUG_PBR_BRDF_UV 0 // Output: red green BRDF UV (GGX input) -#define DEBUG_PBR_BRDF_SCALE_BIAS 0 // Output: red green BRDF Scale Bias (GGX output) -#define DEBUG_PBR_BRDF_SCALE_ONLY 0 // Output: grayscale BRDF Scale -#define DEBUG_PBR_BRDF_BIAS_ONLY 0 // Output: grayscale BRDER Bias -#define DEBUG_PBR_FRESNEL 0 // Output: roughness dependent fresnel -#define DEBUG_PBR_KSPEC 0 // Output: K spec -#define DEBUG_PBR_REFLECTION_DIR 0 // Output: reflection dir -#define DEBUG_PBR_SPEC_IBL 0 // Output: IBL specularity -#define DEBUG_PBR_SPEC_LEGACY 0 // Output: legacyenv -#define DEBUG_PBR_SPEC_REFLECTION 0 // Output: environment reflection -#define DEBUG_PBR_FSS_ESS_GGX 0 // Output: FssEssGGX -#define DEBUG_PBR_SPEC 0 // Output: Final spec - -// IBL Diffuse -#define DEBUG_PBR_DIFFUSE_C 0 // Output: diffuse non metal mix -#define DEBUG_PBR_IRRADIANCE_RAW 0 // Output: Diffuse Irradiance pre-mix -#define DEBUG_PBR_IRRADIANCE 0 // Output: Diffuse Irradiance, NOTE: SSAO is factored in -#define DEBUG_PBR_FSS_ESS_LAMBERT 0 // Output: FssEssLambert -#define DEBUG_PBR_EMS 0 // Output: Ems = (1 - BRDF Scale + BRDF Bias) -#define DEBUG_PBR_EMS_AVG 0 // Output: Avg Ems -#define DEBUG_PBR_AVG 0 // Output: Avg -#define DEBUG_PBR_FMS_EMS 0 // Output: FmsEms -#define DEBUG_PBR_DIFFUSE_K 0 // Output: diffuse FssEssLambert + FmsEms -#define DEBUG_PBR_DIFFUSE_PRE_AO 0 // Output: diffuse pre AO -#define DEBUG_PBR_DIFFUSE 0 // Output: diffuse post AO - -// Atmospheric Lighting -#define DEBUG_PBR_AMBENV 0 // Output: ambient environment -#define DEBUG_PBR_AMBOCC 0 // Output: ambient occlusion -#define DEBUG_PBR_DA_RAW 0 // Output: da pre pow() -#define DEBUG_PBR_DA_POW 0 // Output: da post pow() -#define DEBUG_PBR_SUN_LIT 0 // Ouput: sunlit -#define DEBUG_PBR_SUN_CONTRIB 0 // Output: sun_contrib -#define DEBUG_PBR_SKY_ADDITIVE 0 // Output: additive -#define DEBUG_PBR_SKY_ATTEN 0 // Output: greyscale atten.r - -// Sun -#define DEBUG_PBR_SUN_FULL_BRIGHT 0 // Sunlit color = <1,1,1> -#define DEBUG_PBR_SUN_OUT_DIFFUSE 0 // Final sun diffuse : intensity * nl * diffuse -#define DEBUG_PBR_SUN_OUT_SPECULAR 0 // Final sun specular: intensity * nl * specular -#define DEBUG_PBR_SUN_LAMBERT 0 // BRDF Diffuse: Lambertian Diffuse color -#define DEBUG_PBR_SUN_LAMBERT_NL 0 // BRDF Diffuse: nl * Lambertian Diffuse color -#define DEBUG_PBR_SUN_H 0 // Half Vector -#define DEBUG_PBR_SUN_L 0 // Light Vector -#define DEBUG_PBR_SUN_V 0 // Surface to Light Vector -#define DEBUG_PBR_SUN_NH 0 // dot(n,h) -#define DEBUG_PBR_SUN_NL 0 // dot(n,l) -#define DEBUG_PBR_SUN_NV 0 // dot(n,v) -#define DEBUG_PBR_SUN_VH 0 // dot(v,h) -#define DEBUG_PBR_SUN_REFLECT0 0 // reflect0 only -#define DEBUG_PBR_SUN_SPEC_FRESNEL 0 // Fresnel -#define DEBUG_PBR_SUN_SPEC_D 0 // D(h) -#define DEBUG_PBR_SUN_SPEC_V 0 // V(l,v,h) -#define DEBUG_PBR_SUN_SPEC_DF 0 // D() * F() -#define DEBUG_PBR_SUN_SPEC_DV 0 // D() * V() -#define DEBUG_PBR_SUN_SPEC_FV 0 // F() * V() -#define DEBUG_PBR_SUN_SPEC_DFV 0 // D() * F() * V() -#define DEBUG_PBR_SUN_SPEC_NL_DFV 0 // nl * D() * F() * V() -#define DEBUG_PBR_SUN_FINAL 0 // LAMBERT_NL + BRDF() - -#define DEBUG_PBR_IOR 0 // Output: grayscale IOR -#define DEBUG_PBR_REFLECT0_BASE 0 // Output: black reflect0 default from ior -#define DEBUG_PBR_REFLECT0_MIX 0 // Output: diffuse reflect0 calculated from ior -#define DEBUG_PBR_REFLECTANCE 0 // Output: diffuse reflectance -- NOT USED -#define DEBUG_PBR_SPEC_WEIGHT 0 // Output: specWeight -#define DEBUG_PBR_V2C_REMAP 0 // Output: vertex2camera (remap [-1,1] -> [0,1]) #extension GL_ARB_texture_rectangle : enable #extension GL_ARB_shader_texture_lod : enable @@ -169,16 +69,7 @@ uniform vec2 screen_res; vec3 getNorm(vec2 pos_screen); vec4 getPositionWithDepth(vec2 pos_screen, float depth); -vec3 BRDFLambertian( vec3 reflect0, vec3 reflect90, vec3 c_diff, float specWeight, float vh ); -vec3 BRDFSpecularGGX( vec3 reflect0, vec3 reflect90, float alphaRoughness, float specWeight, float vh, float nl, float nv, float nh ); void calcAtmosphericVars(vec3 inPositionEye, vec3 light_dir, float ambFactor, out vec3 sunlit, out vec3 amblit, out vec3 additive, out vec3 atten, bool use_ao); -float calcF0(float ior); -void calcHalfVectors(vec3 lv, vec3 n, vec3 v, out vec3 h, out vec3 l, out float nh, out float nl, out float nv, out float vh, out float lightDist); - -float getAmbientClamp(); -vec2 getGGX( vec2 brdfPoint ); -void initMaterial( vec3 diffuse, vec3 packedORM, - out float alphaRough, out vec3 c_diff, out vec3 reflect0, out vec3 reflect90, out float specWeight ); vec3 atmosFragLighting(vec3 l, vec3 additive, vec3 atten); vec3 scaleSoftClipFrag(vec3 l); vec3 fullbrightAtmosTransportFrag(vec3 light, vec3 additive, vec3 atten); @@ -193,18 +84,39 @@ void applyLegacyEnv(inout vec3 color, vec3 legacyenv, vec4 spec, vec3 pos, vec3 vec3 linear_to_srgb(vec3 c); vec3 srgb_to_linear(vec3 c); -// Debug Utils -vec3 BRDFDiffuse(vec3 color); -vec3 colorize_dot(float x); -vec3 fresnelSchlick( vec3 reflect0, vec3 reflect90, float vh); -float D_GGX( float nh, float alphaRough ); -float V_GGX( float nl, float nv, float alphaRough ); - #ifdef WATER_FOG vec4 applyWaterFogView(vec3 pos, vec4 color); #endif -uniform vec3 view_dir; // PBR +// PBR interface +void calcHalfVectors(vec3 lv, vec3 n, vec3 v, out vec3 h, out vec3 l, out float nh, out float nl, out float nv, out float vh, out float lightDist); +void initMaterial( vec3 diffuse, vec3 packedORM, + out float alphaRough, out vec3 c_diff, out vec3 reflect0, out vec3 reflect90, out float specWeight ); +// perform PBR image based lighting according to GLTF spec +// all parameters are in linear space +void pbrIbl(out vec3 colorDiffuse, // diffuse color output + out vec3 colorSpec, // specular color output, + vec3 radiance, // radiance map sample + vec3 irradiance, // irradiance map sample + float ao, // ambient occlusion factor + float nv, + float perceptualRough, // roughness factor + float gloss, // 1.0 - roughness factor + vec3 reflect0, + vec3 c_diff); + +void pbrDirectionalLight(inout vec3 colorDiffuse, + inout vec3 colorSpec, + vec3 sunlit, + float scol, + vec3 reflect0, + vec3 reflect90, + vec3 c_diff, + float alphaRough, + float vh, + float nl, + float nv, + float nh); void main() { @@ -241,8 +153,6 @@ void main() calcAtmosphericVars(pos.xyz, light_dir, ambocc, sunlit, amblit, additive, atten, true); - //vec3 amb_vec = env_mat * norm.xyz; - vec3 ambenv; vec3 glossenv; vec3 legacyenv; @@ -262,480 +172,111 @@ void main() vec3 colorDiffuse = vec3(0); vec3 colorEmissive = spec.rgb; // PBR sRGB Emissive. See: pbropaqueF.glsl vec3 colorSpec = vec3(0); -// vec3 colorClearCoat = vec3(0); -// vec3 colorSheen = vec3(0); -// vec3 colorTransmission = vec3(0); vec3 packedORM = texture2DRect(emissiveRect, tc).rgb; // PBR linear packed Occlusion, Roughness, Metal. See: pbropaqueF.glsl -#if DEBUG_PBR_PACK_ORM0 - packedORM = vec3(0,0,0); -#endif -#if DEBUG_PBR_PACK_ORM1 - packedORM = vec3(1,1,1); -#endif float IOR = 1.5; // default Index Of Refraction 1.5 (dielectrics) -#if DEBUG_PBR_REFLECT0_BASE - vec3 debug_reflect0 = vec3(calcF0(IOR)); -#endif float ao = packedORM.r; float metal = packedORM.b; vec3 v = -normalize(pos.xyz); -#if DEBUG_PBR_VERT2CAM1 - v = vec3(0,0,1); -#endif vec3 n = norm.xyz; -// vec3 t = texture2DRect(tangentMap, tc).rgb; -#if DEBUG_PBR_TANGENT1 - vec3 t = vec3(1,0,0); -#endif - vec3 b = cross( n,t); - vec3 reflectVN = normalize(reflect(-v,n)); vec3 h, l; float nh, nl, nv, vh, lightDist; calcHalfVectors(light_dir, n, v, h, l, nh, nl, nv, vh, lightDist); - float tv = clamp(dot(t,v),0,1); - float bv = clamp(dot(b,v),0,1); - - // Reference: getMetallicRoughnessInfo -#if PBR_USE_LINEAR_ALBEDO - vec3 base = diffuse.rgb; -#else - vec3 base = linear_to_srgb(diffuse.rgb); -#endif float perceptualRough = packedORM.g; // NOTE: do NOT clamp here to be consistent with Blender, Blender is wrong and Substance is right + vec3 c_diff, reflect0, reflect90; float alphaRough, specWeight; - initMaterial( base, packedORM, alphaRough, c_diff, reflect0, reflect90, specWeight ); -#if DEBUG_PBR_REFLECTANCE - float reflectance = max( max( reflect0.r, reflect0.g ), reflect0.b ); -#endif - - // Common to RadianceGGX and RadianceLambertian - vec2 brdfPoint = clamp(vec2(nv, perceptualRough), vec2(0,0), vec2(1,1)); - vec2 vScaleBias = getGGX( brdfPoint); // Environment BRDF: scale and bias applied to reflect0 - vec3 fresnelR = max(vec3(1.0 - perceptualRough), reflect0) - reflect0; // roughness dependent fresnel - vec3 kSpec = reflect0 + fresnelR*pow(1.0 - nv, 5.0); + initMaterial( diffuse.rgb, packedORM, alphaRough, c_diff, reflect0, reflect90, specWeight ); - // Reference: getIBLRadianceGGX - // https://forum.substance3d.com/index.php?topic=3243.0 - // Glossiness - // This map is the inverse of the roughness map. - vec3 irradiance = vec3(0); - vec3 specLight = vec3(0); float gloss = 1.0 - perceptualRough; - sampleReflectionProbes(irradiance, specLight, legacyenv, pos.xyz, norm.xyz, gloss, 0.0); -#if DEBUG_PBR_IRRADIANCE_RAW - vec3 debug_irradiance = irradiance; -#endif - -#if PBR_USE_DEFAULT_IRRADIANCE - vec2 iruv = vec2(0.5f + 0.5f * atan(reflectVN.z, reflectVN.x) / M_PI, 1.f - acos(reflectVN.y) / M_PI); - irradiance = texture2D(altDiffuseMap, iruv).rgb * ambocc; -#endif -#if PBR_USE_IRRADIANCE_HACK + vec3 irradiance = vec3(0); + vec3 radiance = vec3(0); + sampleReflectionProbes(irradiance, radiance, legacyenv, pos.xyz, norm.xyz, gloss, 0.0); irradiance = max(amblit,irradiance) * ambocc; -#endif -#if DEBUG_PBR_SPECLIGHT051 - specLight = vec3(0,0.5,1.0); - irradiance = specLight; -#endif - vec3 FssEssGGX = kSpec*vScaleBias.x + vScaleBias.y; -#if DEBUG_PBR_SPEC_IBL - vec3 debug_color_spec = specWeight * specLight * FssEssGGX; -#endif -#if PBR_USE_IBL - colorSpec += specWeight * specLight * FssEssGGX; -#endif - - // Reference: getIBLRadianceLambertian - vec3 FssEssLambert = specWeight * kSpec * vScaleBias.x + vScaleBias.y; // NOTE: Very similar to FssEssRadiance but with extra specWeight term - float Ems = 1.0 - (vScaleBias.x + vScaleBias.y); - vec3 avg = specWeight * (reflect0 + (1.0 - reflect0) / 21.0); - vec3 AvgEms = avg * Ems; - vec3 FmsEms = AvgEms * FssEssLambert / (1.0 - AvgEms); - vec3 kDiffuse = c_diff * (1.0 - FssEssLambert + FmsEms); -#if PBR_USE_IBL - colorDiffuse += (FmsEms + kDiffuse) * irradiance; -#endif - #if DEBUG_PBR_DIFFUSE_PRE_AO - vec3 debug_diffuse = colorDiffuse; - #endif - - colorDiffuse *= ao; // Occlusion -- NOTE: pbropaque will need occlusion_strength pre-multiplied into spec.r - colorSpec *= ao; - // Add in sun/moon reflection + pbrIbl(colorDiffuse, colorSpec, radiance, irradiance, ao, nv, perceptualRough, gloss, reflect0, c_diff); + + // Add in sun/moon punctual light if (nl > 0.0 || nv > 0.0) { - float scale = 4.9; - vec3 sunColor = srgb_to_linear(sunlit * scale); // NOTE: Midday should have strong sunlight -#if DEBUG_PBR_SUN_FULL_BRIGHT - sunColor = vec3(1); -#endif - // scol = sun shadow - vec3 intensity = ambocc * sunColor * nl * scol; -#if PBR_USE_LINEAR_ALBEDO - vec3 sunDiffuse = intensity * BRDFLambertian (reflect0, reflect90, c_diff , specWeight, vh); - vec3 sunSpec = intensity * BRDFSpecularGGX(reflect0, reflect90, alphaRough, specWeight, vh, nl, nv, nh); -#else - vec3 sunDiffuse = base * intensity * BRDFLambertian (reflect0, reflect90, c_diff , specWeight, vh); - vec3 sunSpec = intensity * BRDFSpecularGGX(reflect0, reflect90, alphaRough, specWeight, vh, nl, nv, nh); -#endif - // Disabling PBR bloom due to two reasons: - // 1. The glTF 2.0 Specification does not specify bloom, - // 2. As the camera moves there are lots of bloom shimmering. - //bloom = dot(sunSpec, sunSpec) / (scale * scale * scale); - - #if DEBUG_PBR_SUN_SPEC_FRESNEL - colorDiffuse = vec3(0); - colorSpec = fresnelSchlick( reflect0, reflect90, vh ); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_D - colorDiffuse = vec3(0); - colorSpec = vec3(D_GGX( nh, alphaRough )); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_V - colorDiffuse = vec3(0); - colorSpec = vec3(V_GGX( nl, nv, alphaRough )); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_DF - colorDiffuse = vec3(0); - colorSpec = fresnelSchlick( reflect0, reflect90, vh ); - colorSpec *= D_GGX( nh, alphaRough ); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_DV - colorDiffuse = vec3(0); - colorSpec = vec3(D_GGX( nh, alphaRough )); - colorSpec *= vec3(V_GGX( nl, nv, alphaRough )); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_FV - colorDiffuse = vec3(0); - colorSpec = fresnelSchlick( reflect0, reflect90, vh ); - colorSpec *= V_GGX( nl, nv, alphaRough ); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_DFV - colorDiffuse = vec3(0); - colorSpec = fresnelSchlick( reflect0, reflect90, vh ); - colorSpec *= D_GGX( nh, alphaRough ); - colorSpec *= V_GGX( nl, nv, alphaRough ); - bloom = 0; - #endif - #if DEBUG_PBR_SUN_SPEC_NL_DFV - colorDiffuse = vec3(0); - colorSpec = nl * BRDFSpecularGGX(reflect0, reflect90, alphaRough, specWeight, vh, nl, nv, nh); - #endif - #if DEBUG_PBR_SUN_FINAL - colorDiffuse = nl * BRDFLambertian (reflect0, reflect90, c_diff , specWeight, vh); - colorSpec = nl * BRDFSpecularGGX(reflect0, reflect90, alphaRough, specWeight, vh, nl, nv, nh); - #endif - - #if DEBUG_PBR_SUN_OUT_DIFFUSE - colorDiffuse = linear_to_srgb(sunDiffuse); - colorSpec = vec3(0); - bloom = 0.0; - #endif - #if DEBUG_PBR_SUN_OUT_SPECULAR - colorDiffuse = linear_to_srgb(sunSpec); - colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_REFLECT0 - colorDiffuse = reflect0; - colorSpec = vec3(0); - #endif - -#if PBR_USE_SUN - colorDiffuse += sunDiffuse; - colorSpec += sunSpec; -#endif + pbrDirectionalLight(colorDiffuse, colorSpec, srgb_to_linear(sunlit), scol, reflect0, reflect90, c_diff, alphaRough, vh, nl, nv, nh); } -#if DEBUG_PBR_SUN_LAMBERT - colorDiffuse = BRDFLambertian (reflect0, reflect90, c_diff , specWeight, vh); - colorSpec = vec3(0); - bloom = 0; -#endif -#if DEBUG_PBR_SUN_LAMBERT_NL - colorDiffuse = nl * BRDFLambertian (reflect0, reflect90, c_diff , specWeight, vh); - colorSpec = vec3(0); - bloom = 0; -#endif - - #if DEBUG_PBR_SUN_H - colorDiffuse = h*0.5 + 0.5; colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_L - colorDiffuse = l*0.5 + 0.5; colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_V - colorDiffuse = v*0.5 + 0.5; colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_NH - colorDiffuse = colorize_dot(nh); colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_NL - colorDiffuse = colorize_dot(nl); colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_NV - colorDiffuse = colorize_dot(nv); colorSpec = vec3(0); - #endif - #if DEBUG_PBR_SUN_VH - colorDiffuse = colorize_dot(vh); colorSpec = vec3(0); - #endif - color.rgb = colorDiffuse + colorEmissive + colorSpec; -#if PBR_USE_ATMOS color = linear_to_srgb(color); color *= atten.r; color += 2.0*additive; color = scaleSoftClipFrag(color); color = srgb_to_linear(color); -#endif // PBR_USE_ATMOS - - #if DEBUG_PBR_DIFFUSE - color.rgb = colorDiffuse; - #endif - #if DEBUG_PBR_EMISSIVE - color.rgb = colorEmissive; - #endif - #if DEBUG_PBR_METAL - color.rgb = vec3(metal); - #endif - #if DEBUG_PBR_NORMAL_MAP - color.rgb = diffuse.rgb; - #endif - #if DEBUG_PBR_OCCLUSION - color.rgb = vec3(ao); - #endif - #if DEBUG_PBR_ORM - color.rgb = packedORM; - #endif - #if DEBUG_PBR_ROUGH_PERCEPTUAL - color.rgb = vec3(perceptualRough); - #endif - #if DEBUG_PBR_ROUGH_ALPHA - color.rgb = vec3(alphaRough); - #endif - #if DEBUG_PBR_NORMAL - color.rgb = norm.xyz*0.5 + vec3(0.5); - color.rgb = srgb_to_linear(color.rgb); - #endif - #if DEBUG_PBR_TANGENT - color.rgb = t; - #endif - #if DEBUG_PBR_BITANGENT - color.rgb = b; - #endif - #if DEBUG_PBR_DOT_NV - color.rgb = vec3(nv); - #endif - #if DEBUG_PBR_DOT_TV - color.rgb = vec3(tv); - #endif - #if DEBUG_PBR_DOT_BV - color.rgb = vec3(bv); - #endif - - #if DEBUG_PBR_AVG - color.rgb = avg; - #endif - #if DEBUG_PBR_BRDF_UV - color.rgb = vec3(brdfPoint,0.0); - color.rgb = linear_to_srgb(color.rgb); - #endif - #if DEBUG_PBR_BRDF_SCALE_BIAS - color.rgb = vec3(vScaleBias,0.0); - #endif - #if DEBUG_PBR_DIFFUSE_C - color.rgb = c_diff; - #endif - #if DEBUG_PBR_BRDF_SCALE_ONLY - color.rgb = vec3(vScaleBias.x); - #endif - #if DEBUG_PBR_BRDF_BIAS_ONLY - color.rgb = vec3(vScaleBias.y); - #endif - #if DEBUG_PBR_DIFFUSE_K - color.rgb = kDiffuse; - #endif - #if DEBUG_PBR_DIFFUSE_MAP - color.rgb = diffuse.rgb; - #endif - #if DEBUG_PBR_DIFFUSE_PRE_AO - color.rgb = debug_diffuse; - #endif - #if DEBUG_PBR_EMS - color.rgb = vec3(Ems); - #endif - #if DEBUG_PBR_EMS_AVG - color.rgb = AvgEms; - #endif - #if DEBUG_PBR_FMS_EMS - color.rgb = FmsEms; - #endif - #if DEBUG_PBR_FSS_ESS_GGX - color.rgb = FssEssGGX; // spec - #endif - #if DEBUG_PBR_FSS_ESS_LAMBERT - color.rgb = FssEssLambert; // diffuse - #endif - #if DEBUG_PBR_FRESNEL - color.rgb = fresnelR; - #endif - #if DEBUG_PBR_IOR - color.rgb = vec3(IOR); - #endif - #if DEBUG_PBR_IRRADIANCE_RAW - color.rgb = debug_irradiance; - bloom = 0; - #endif - #if DEBUG_PBR_IRRADIANCE - color.rgb = irradiance; - bloom = 0; - #endif - #if DEBUG_PBR_KSPEC - color.rgb = kSpec; - #endif - #if DEBUG_PBR_REFLECT0_BASE - color.rgb = vec3(debug_reflect0); - #endif - #if DEBUG_PBR_REFLECT0_MIX - color.rgb = vec3(reflect0); - #endif - #if DEBUG_PBR_REFLECTANCE - color.rgb = vec3(reflectance); - #endif - #if DEBUG_PBR_REFLECTION_DIR - color.rgb = reflect(-v, n); // NOTE: equivalent to normalize(reflect(pos.xyz, norm.xyz)); - #endif - #if DEBUG_PBR_SPEC - color.rgb = colorSpec; - #endif - #if DEBUG_PBR_SPEC_REFLECTION - color.rgb = specLight; - #endif - #if DEBUG_PBR_SPEC_WEIGHT - color.rgb = vec3(specWeight); - #endif - #if DEBUG_PBR_V2C_RAW - color.rgb = v; - #endif - #if DEBUG_PBR_V2C_REMAP - color.rgb = v*0.5 + vec3(0.5); - #endif - - #if DEBUG_PBR_DA_RAW - color.rgb = vec3(debug_da); - #endif - #if DEBUG_PBR_DA_POW - color.rgb = vec3(da); - #endif - #if DEBUG_PBR_SKY_ADDITIVE - color.rgb = additive; - #endif - #if DEBUG_PBR_SKY_ATTEN - color.rgb = vec3(atten.r); - #endif - #if DEBUG_PBR_SUN_LIT - color.rgb = sunlit; - #endif - #if DEBUG_PBR_SUN_CONTRIB - color.rgb = sun_contrib; - #endif - #if DEBUG_PBR_LIGHT_TYPE - color.rgb = vec3(0); - #endif - - frag_color.rgb = color.rgb; // PBR is done in linear + frag_color.rgb = color.rgb; //output linear since local lights will be added to this shader's results } -else -{ - float da = clamp(dot(norm.xyz, light_dir.xyz), 0.0, 1.0); -#if DEBUG_PBR_DA_RAW - float debug_da = da; -#endif - da = pow(da, light_gamma); + else + { + float da = clamp(dot(norm.xyz, light_dir.xyz), 0.0, 1.0); + da = pow(da, light_gamma); - diffuse.rgb = linear_to_srgb(diffuse.rgb); // SL-14035 + diffuse.rgb = linear_to_srgb(diffuse.rgb); // SL-14035 - sampleReflectionProbes(ambenv, glossenv, legacyenv, pos.xyz, norm.xyz, spec.a, envIntensity); - ambenv.rgb = linear_to_srgb(ambenv.rgb); - glossenv.rgb = linear_to_srgb(glossenv.rgb); - legacyenv.rgb = linear_to_srgb(legacyenv.rgb); + sampleReflectionProbes(ambenv, glossenv, legacyenv, pos.xyz, norm.xyz, spec.a, envIntensity); + ambenv.rgb = linear_to_srgb(ambenv.rgb); + glossenv.rgb = linear_to_srgb(glossenv.rgb); + legacyenv.rgb = linear_to_srgb(legacyenv.rgb); - amblit = max(ambenv, amblit); - color.rgb = amblit*ambocc; + amblit = max(ambenv, amblit); + color.rgb = amblit*ambocc; - //float ambient = min(abs(dot(norm.xyz, sun_dir.xyz)), 1.0); - //ambient *= 0.5; - //ambient *= ambient; - //ambient = (1.0 - ambient); - //color.rgb *= ambient; + vec3 sun_contrib = min(da, scol) * sunlit; + color.rgb += sun_contrib; + color.rgb = min(color.rgb, vec3(1,1,1)); + color.rgb *= diffuse.rgb; - vec3 sun_contrib = min(da, scol) * sunlit; - color.rgb += sun_contrib; - color.rgb = min(color.rgb, vec3(1,1,1)); - color.rgb *= diffuse.rgb; + vec3 refnormpersp = reflect(pos.xyz, norm.xyz); - vec3 refnormpersp = reflect(pos.xyz, norm.xyz); + if (spec.a > 0.0) // specular reflection + { + float sa = dot(normalize(refnormpersp), light_dir.xyz); + vec3 dumbshiny = sunlit * scol * (texture2D(lightFunc, vec2(sa, spec.a)).r); - if (spec.a > 0.0) // specular reflection - { - float sa = dot(normalize(refnormpersp), light_dir.xyz); - vec3 dumbshiny = sunlit * scol * (texture2D(lightFunc, vec2(sa, spec.a)).r); + // add the two types of shiny together + vec3 spec_contrib = dumbshiny * spec.rgb; + bloom = dot(spec_contrib, spec_contrib) / 6; + color.rgb += spec_contrib; - // add the two types of shiny together - vec3 spec_contrib = dumbshiny * spec.rgb; - bloom = dot(spec_contrib, spec_contrib) / 6; - color.rgb += spec_contrib; + // add reflection map - EXPERIMENTAL WORK IN PROGRESS + applyGlossEnv(color, glossenv, spec, pos.xyz, norm.xyz); + } - // add reflection map - EXPERIMENTAL WORK IN PROGRESS - applyGlossEnv(color, glossenv, spec, pos.xyz, norm.xyz); - } + color.rgb = mix(color.rgb, diffuse.rgb, diffuse.a); - color.rgb = mix(color.rgb, diffuse.rgb, diffuse.a); + if (envIntensity > 0.0) + { // add environmentmap + //fudge darker + legacyenv *= 0.5*diffuse.a+0.5; + applyLegacyEnv(color, legacyenv, spec, pos.xyz, norm.xyz, envIntensity); + } - if (envIntensity > 0.0) - { // add environmentmap - //fudge darker - legacyenv *= 0.5*diffuse.a+0.5; - applyLegacyEnv(color, legacyenv, spec, pos.xyz, norm.xyz, envIntensity); - } + if (GET_GBUFFER_FLAG(GBUFFER_FLAG_HAS_ATMOS)) + { + color = mix(atmosFragLighting(color, additive, atten), fullbrightAtmosTransportFrag(color, additive, atten), diffuse.a); + color = mix(scaleSoftClipFrag(color), fullbrightScaleSoftClip(color), diffuse.a); + } - if (GET_GBUFFER_FLAG(GBUFFER_FLAG_HAS_ATMOS)) - { - color = mix(atmosFragLighting(color, additive, atten), fullbrightAtmosTransportFrag(color, additive, atten), diffuse.a); - color = mix(scaleSoftClipFrag(color), fullbrightScaleSoftClip(color), diffuse.a); + #ifdef WATER_FOG + vec4 fogged = applyWaterFogView(pos.xyz, vec4(color, bloom)); + color = fogged.rgb; + bloom = fogged.a; + #endif + + // convert to linear as fullscreen lights need to sum in linear colorspace + // and will be gamma (re)corrected downstream... + //color = ambenv; + //color.b = diffuse.a; + frag_color.rgb = srgb_to_linear(color.rgb); } -#ifdef WATER_FOG - vec4 fogged = applyWaterFogView(pos.xyz, vec4(color, bloom)); - color = fogged.rgb; - bloom = fogged.a; -#endif - #if DEBUG_PBR_LIGHT_TYPE - color.rgb = vec3(0); - #endif - // convert to linear as fullscreen lights need to sum in linear colorspace - // and will be gamma (re)corrected downstream... - //color = ambenv; - //color.b = diffuse.a; - frag_color.rgb = srgb_to_linear(color.rgb); -} -#if DEBUG_PBR_AMBOCC - frag_color.rgb = vec3(ambocc); -#endif -#if DEBUG_PBR_AMBENV - frag_color.rgb = ambenv; -#endif frag_color.a = bloom; } |