// STATIC: "BASETEXTURE" "0..1" // STATIC: "DETAILTEXTURE" "0..1" // STATIC: "CUBEMAP" "0..1" // STATIC: "DIFFUSELIGHTING" "0..1" // STATIC: "ENVMAPMASK" "0..1" // STATIC: "BASEALPHAENVMAPMASK" "0..1" // STATIC: "SELFILLUM" "0..1" // STATIC: "VERTEXCOLOR" "0..1" // STATIC: "VERTEXALPHA" "0..1" // STATIC: "FLASHLIGHT" "0..1" // STATIC: "SELFILLUM_ENVMAPMASK_ALPHA" "0..1" // DYNAMIC: "WRITEWATERFOGTODESTALPHA" "0..1" // DYNAMIC: "FOGTYPE" "0..2" // DYNAMIC: "LIGHTING_PREVIEW" "0..2" // DYNAMIC: "FLASHLIGHTDEPTH" "0..0" // SKIP: $BASEALPHAENVMAPMASK && $ENVMAPMASK // SKIP: $BASEALPHAENVMAPMASK && $SELFILLUM // SKIP: $SELFILLUM && $SELFILLUM_ENVMAPMASK_ALPHA // SKIP: $SELFILLUM_ENVMAPMASK_ALPHA && (! $ENVMAPMASK) // SKIP: $ENVMAPMASK && ($FLASHLIGHT || $FLASHLIGHTDEPTH) #include "common_vertexlitgeneric_dx9.h" const HALF4 g_EnvmapTint : register( c0 ); const HALF4 g_DiffuseModulation : register( c1 ); #if !FLASHLIGHT // we don't use these with HDR. const HALF3 g_EnvmapContrast : register( c2 ); const HALF3 g_EnvmapSaturation : register( c3 ); #endif const HALF4 g_SelfIllumTint : register( c4 ); const HALF4 g_WaterFogColor : register( c19 ); const HALF3 g_EyePos : register( c20 ); const HALF4 g_FogParams : register( c21 ); #define g_WaterZ g_FogParams.y #define g_FogOORange g_FogParams.w const float4 g_FlashlightAttenuationFactors : register( c22 ); const HALF3 g_FlashlightPos : register( c23 ); const float4x4 g_FlashlightWorldToTexture : register( c24 ); // through c27 sampler BaseTextureSampler : register( s0 ); sampler EnvmapSampler : register( s1 ); sampler DetailSampler : register( s2 ); sampler EnvmapMaskSampler : register( s4 ); sampler FlashlightSampler : register( s7 ); struct PS_INPUT { HALF2 baseTexCoord : TEXCOORD0; // Base texture coordinate HALF2 detailTexCoord : TEXCOORD1; // Detail texture coordinate float4 color : TEXCOORD2; // Vertex color (from lighting or unlit) float3 worldVertToEyeVector : TEXCOORD3; // Necessary for reflection float3 worldSpaceNormal : TEXCOORD4; // Necessary for cubemaps float4 worldPos_projPosZ : TEXCOORD7; // Necessary for water fog dest alpha float4 fogFactorW : COLOR1; }; #if LIGHTING_PREVIEW == 2 struct LPREVIEW_PS_OUT { float4 color : COLOR0; float4 normal : COLOR1; float4 position : COLOR2; float4 flags : COLOR3; }; LPREVIEW_PS_OUT main( PS_INPUT i ) : COLOR #else HDR_PS_OUTPUT main( PS_INPUT i ) : COLOR #endif { bool bBaseTexture = BASETEXTURE ? true : false; bool bDetailTexture = DETAILTEXTURE ? true : false; bool bCubemap = CUBEMAP ? true : false; bool bDiffuseLighting = DIFFUSELIGHTING ? true : false; bool bEnvmapMask = ENVMAPMASK ? true : false; bool bBaseAlphaEnvmapMask = BASEALPHAENVMAPMASK ? true : false; bool bSelfIllum = SELFILLUM ? true : false; bool bVertexColor = VERTEXCOLOR ? true : false; bool bVertexAlpha = VERTEXALPHA ? true : false; bool bFlashlight = FLASHLIGHT ? true : false; HALF4 baseColor = HALF4( 1.0f, 1.0f, 1.0f, 1.0f ); if( bBaseTexture ) { baseColor = tex2D( BaseTextureSampler, i.baseTexCoord.xy ); } HALF3 detailColor = HALF3( 1.0f, 1.0f, 1.0f ); if( bDetailTexture ) { detailColor = 2.0 * tex2D( DetailSampler, i.detailTexCoord.xy ); } HALF3 specularFactor = 1.0f; HALF4 envmapMaskTexel; if( bEnvmapMask ) { envmapMaskTexel = tex2D( EnvmapMaskSampler, i.baseTexCoord.xy ); specularFactor *= envmapMaskTexel.xyz; } if( bBaseAlphaEnvmapMask ) { specularFactor *= 1.0 - baseColor.a; // this blows! } HALF3 diffuseLighting = HALF3( 1.0f, 1.0f, 1.0f ); if( bDiffuseLighting ) { diffuseLighting = i.color.rgb; } HALF3 albedo = HALF3( 1.0f, 1.0f, 1.0f ); HALF alpha = 1.0f; if( bBaseTexture ) { albedo *= baseColor; if( !bBaseAlphaEnvmapMask && !bSelfIllum ) { alpha *= baseColor.a; } } // If we only have specularity, assume that we want a black diffuse component, and // get alpha from the envmapmask if( !bBaseTexture && bCubemap ) { if( bEnvmapMask ) { alpha *= envmapMaskTexel.a; } } #if FLASHLIGHT if( bFlashlight ) { bool bDoShadow = (FLASHLIGHTDEPTH==1)?1:0; diffuseLighting = DoFlashlight( g_FlashlightPos, i.worldPos_projPosZ.xyz, i.worldSpaceNormal, g_FlashlightWorldToTexture, g_FlashlightAttenuationFactors.xyz, g_FlashlightAttenuationFactors.w, FlashlightSampler, EnvmapMaskSampler, bDoShadow ); } #endif // FIXME: This could be done per vertex! diffuseLighting *= g_DiffuseModulation.rgb; alpha *= g_DiffuseModulation.a; if( bVertexColor ) { albedo *= i.color.rgb; } if( bVertexAlpha ) { alpha *= i.color.a; } if( bDetailTexture ) { albedo *= detailColor; } HALF3 diffuseComponent = albedo * diffuseLighting; #if SELFILLUM_ENVMAPMASK_ALPHA // range of alpha: // 0 - 0.125 = lerp(diffuse,selfillum,alpha*8) // 0.125-1.0 = selfillum*(1+alpha-0.125)*8 (over bright glows) HALF3 selfIllumComponent = g_SelfIllumTint * albedo; half Adj_Alpha=8*envmapMaskTexel.a; diffuseComponent=( max( 0, 1-Adj_Alpha ) * diffuseComponent) + Adj_Alpha * selfIllumComponent; #else if( bSelfIllum ) { HALF3 selfIllumComponent = g_SelfIllumTint * albedo; diffuseComponent = lerp( diffuseComponent, selfIllumComponent, baseColor.a ); } #endif HALF3 specularLighting = HALF3( 0.0f, 0.0f, 0.0f ); #if !FLASHLIGHT if( bCubemap ) { // If we've *only* specified a cubemap, blow off the diffuse component if ( !bBaseTexture && !bVertexColor && !bVertexAlpha && !bDetailTexture && !bDiffuseLighting && !bSelfIllum && !bFlashlight ) { diffuseComponent = HALF3( 0.0f, 0.0f, 0.0f ); } HALF3 reflectVect = CalcReflectionVectorUnnormalized( i.worldSpaceNormal, i.worldVertToEyeVector.xyz ); specularLighting = ENV_MAP_SCALE * texCUBE( EnvmapSampler, reflectVect ); specularLighting *= specularFactor; specularLighting *= g_EnvmapTint; HALF3 specularLightingSquared = specularLighting * specularLighting; specularLighting = lerp( specularLighting, specularLightingSquared, g_EnvmapContrast ); HALF3 greyScale = dot( specularLighting, HALF3( 0.299f, 0.587f, 0.114f ) ); specularLighting = lerp( greyScale, specularLighting, g_EnvmapSaturation ); } #endif HALF3 result = diffuseComponent + specularLighting; #if FOGTYPE == 2 float fogFactor = CalcWaterFogAlpha( g_WaterZ, g_EyePos.z, i.worldPos_projPosZ.z, i.worldPos_projPosZ.w, g_FogOORange ); result = lerp( result, g_WaterFogColor.xyz, fogFactor ); #if WRITEWATERFOGTODESTALPHA alpha = fogFactor; #endif #endif #if LIGHTING_PREVIEW # if LIGHTING_PREVIEW == 1 float dotprod=0.7+0.25*dot(i.worldSpaceNormal,normalize(float3(1,2,-.5))); return LinearColorToHDROutput( float4( dotprod*albedo.xyz, alpha ), 0 ); # else LPREVIEW_PS_OUT ret; ret.flags=float4(1,1,1,1); ret.color=float4( albedo.xyz, alpha ); ret.normal=float4(i.worldSpaceNormal,alpha); ret.position=float4(i.worldPos_projPosZ.xyz,alpha); return ret; # endif #else return LinearColorToHDROutput( float4( result.xyz, alpha ), i.fogFactorW); #endif }
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |