void DrawLightmappedGeneric_DX9_Internal(CBaseVSShader *pShader, IMaterialVar** params, bool hasFlashlight, IShaderDynamicAPI *pShaderAPI, IShaderShadow* pShaderShadow, LightmappedGeneric_DX9_Vars_t &info, CBasePerMaterialContextData **pContextDataPtr ) { CLightmappedGeneric_DX9_Context *pContextData = reinterpret_cast< CLightmappedGeneric_DX9_Context *> ( *pContextDataPtr ); if ( pShaderShadow || ( ! pContextData ) || pContextData->m_bMaterialVarsChanged || hasFlashlight ) { bool hasBaseTexture = params[info.m_nBaseTexture]->IsTexture(); int nAlphaChannelTextureVar = hasBaseTexture ? (int)info.m_nBaseTexture : (int)info.m_nEnvmapMask; BlendType_t nBlendType = pShader->EvaluateBlendRequirements( nAlphaChannelTextureVar, hasBaseTexture ); bool bIsAlphaTested = IS_FLAG_SET( MATERIAL_VAR_ALPHATEST ) != 0; bool bFullyOpaqueWithoutAlphaTest = (nBlendType != BT_BLENDADD) && (nBlendType != BT_BLEND) && (!hasFlashlight || IsX360()); //dest alpha is free for special use bool bFullyOpaque = bFullyOpaqueWithoutAlphaTest && !bIsAlphaTested; bool bNeedRegenStaticCmds = (! pContextData ) || pShaderShadow; if ( ! pContextData ) // make sure allocated { pContextData = new CLightmappedGeneric_DX9_Context; *pContextDataPtr = pContextData; } bool hasBump = ( params[info.m_nBumpmap]->IsTexture() ) && ( !g_pHardwareConfig->PreferReducedFillrate() ); bool hasSSBump = hasBump && (info.m_nSelfShadowedBumpFlag != -1) && ( params[info.m_nSelfShadowedBumpFlag]->GetIntValue() ); bool hasBaseTexture2 = hasBaseTexture && params[info.m_nBaseTexture2]->IsTexture(); bool hasLightWarpTexture = params[info.m_nLightWarpTexture]->IsTexture(); bool hasBump2 = hasBump && params[info.m_nBumpmap2]->IsTexture(); bool hasDetailTexture = params[info.m_nDetail]->IsTexture(); bool hasSelfIllum = IS_FLAG_SET( MATERIAL_VAR_SELFILLUM ); bool hasBumpMask = hasBump && hasBump2 && params[info.m_nBumpMask]->IsTexture() && !hasSelfIllum && !hasDetailTexture && !hasBaseTexture2 && (params[info.m_nBaseTextureNoEnvmap]->GetIntValue() == 0); bool bHasBlendModulateTexture = (info.m_nBlendModulateTexture != -1) && (params[info.m_nBlendModulateTexture]->IsTexture() ); bool hasNormalMapAlphaEnvmapMask = IS_FLAG_SET( MATERIAL_VAR_NORMALMAPALPHAENVMAPMASK ); // Parallax cubemaps bool hasParallaxCorrection = params[info.m_nEnvmapParallaxObb1]->IsDefined(); if ( hasFlashlight && !IsX360() ) { // !!speed!! do this in the caller so we don't build struct every time CBaseVSShader::DrawFlashlight_dx90_Vars_t vars; vars.m_bBump = hasBump; vars.m_nBumpmapVar = info.m_nBumpmap; vars.m_nBumpmapFrame = info.m_nBumpFrame; vars.m_nBumpTransform = info.m_nBumpTransform; vars.m_nFlashlightTextureVar = info.m_nFlashlightTexture; vars.m_nFlashlightTextureFrameVar = info.m_nFlashlightTextureFrame; vars.m_bLightmappedGeneric = true; vars.m_bWorldVertexTransition = hasBaseTexture2; vars.m_nBaseTexture2Var = info.m_nBaseTexture2; vars.m_nBaseTexture2FrameVar = info.m_nBaseTexture2Frame; vars.m_nBumpmap2Var = info.m_nBumpmap2; vars.m_nBumpmap2Frame = info.m_nBumpFrame2; vars.m_nBump2Transform = info.m_nBumpTransform2; vars.m_nAlphaTestReference = info.m_nAlphaTestReference; vars.m_bSSBump = hasSSBump; vars.m_nDetailVar = info.m_nDetail; vars.m_nDetailScale = info.m_nDetailScale; vars.m_nDetailTextureCombineMode = info.m_nDetailTextureCombineMode; vars.m_nDetailTextureBlendFactor = info.m_nDetailTextureBlendFactor; vars.m_nDetailTint = info.m_nDetailTint; if ( ( info.m_nSeamlessMappingScale != -1 ) ) vars.m_fSeamlessScale = params[info.m_nSeamlessMappingScale]->GetFloatValue(); else vars.m_fSeamlessScale = 0.0; pShader->DrawFlashlight_dx90( params, pShaderAPI, pShaderShadow, vars ); return; } pContextData->m_bFullyOpaque = bFullyOpaque; pContextData->m_bFullyOpaqueWithoutAlphaTest = bFullyOpaqueWithoutAlphaTest; NormalDecodeMode_t nNormalDecodeMode = NORMAL_DECODE_NONE; if ( hasBump && g_pHardwareConfig->SupportsNormalMapCompression() && g_pHardwareConfig->SupportsPixelShaders_2_b() ) { ITexture *pBumpTex = params[info.m_nBumpmap]->GetTextureValue(); if ( pBumpTex ) { nNormalDecodeMode = pBumpTex->GetNormalDecodeMode(); if ( hasBump2 ) // Check encoding of secondary normal if there is oneg { ITexture *pBumpTex2 = params[info.m_nBumpmap]->GetTextureValue(); if ( pBumpTex2 && ( pBumpTex2->GetNormalDecodeMode() != nNormalDecodeMode ) ) { DevMsg("LightmappedGeneric: Primary and Secondary normal map compression formats don't match. This is unsupported!\n"); Assert(0); } } } } int nNormalMaskDecodeMode = 0; if ( hasBumpMask && g_pHardwareConfig->SupportsNormalMapCompression() && g_pHardwareConfig->SupportsPixelShaders_2_b() ) { ITexture *pBumpMaskTex = params[info.m_nBumpMask]->GetTextureValue(); if ( pBumpMaskTex ) { nNormalMaskDecodeMode = pBumpMaskTex->GetNormalDecodeMode(); } } bool bHasOutline = IsBoolSet( info.m_nOutline, params ); pContextData->m_bPixelShaderForceFastPathBecauseOutline = bHasOutline; bool bHasSoftEdges = IsBoolSet( info.m_nSoftEdges, params ); bool hasEnvmapMask = params[info.m_nEnvmapMask]->IsTexture(); float fDetailBlendFactor = GetFloatParam( info.m_nDetailTextureBlendFactor, params, 1.0 ); if ( pShaderShadow || bNeedRegenStaticCmds ) { bool hasVertexColor = IS_FLAG_SET( MATERIAL_VAR_VERTEXCOLOR ); bool hasDiffuseBumpmap = hasBump && (params[info.m_nNoDiffuseBumpLighting]->GetIntValue() == 0); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); bool bSeamlessMapping = ( ( info.m_nSeamlessMappingScale != -1 ) && ( params[info.m_nSeamlessMappingScale]->GetFloatValue() != 0.0 ) ); if ( bNeedRegenStaticCmds ) { pContextData->ResetStaticCmds(); CCommandBufferBuilder< CFixedCommandStorageBuffer< 5000 > > staticCmdsBuf; if( !hasBaseTexture ) { if( hasEnvmap ) { // if we only have an envmap (no basetexture), then we want the albedo to be black. staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_BLACK ); } else { staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_WHITE ); } } staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER1, TEXTURE_LIGHTMAP ); if ( bSeamlessMapping ) { staticCmdsBuf.SetVertexShaderConstant4( VERTEX_SHADER_SHADER_SPECIFIC_CONST_0, params[info.m_nSeamlessMappingScale]->GetFloatValue(),0,0,0 ); } staticCmdsBuf.StoreEyePosInPixelShaderConstant( 10 ); staticCmdsBuf.SetPixelShaderFogParams( 11 ); staticCmdsBuf.End(); // now, copy buf pContextData->m_pStaticCmds = new uint8[staticCmdsBuf.Size()]; memcpy( pContextData->m_pStaticCmds, staticCmdsBuf.Base(), staticCmdsBuf.Size() ); } if ( pShaderShadow ) { // Alpha test: FIXME: shouldn't this be handled in Shader_t::SetInitialShadowState pShaderShadow->EnableAlphaTest( bIsAlphaTested ); if ( info.m_nAlphaTestReference != -1 && params[info.m_nAlphaTestReference]->GetFloatValue() > 0.0f ) { pShaderShadow->AlphaFunc( SHADER_ALPHAFUNC_GEQUAL, params[info.m_nAlphaTestReference]->GetFloatValue() ); } pShader->SetDefaultBlendingShadowState( nAlphaChannelTextureVar, hasBaseTexture ); unsigned int flags = VERTEX_POSITION; // base texture pShaderShadow->EnableTexture( SHADER_SAMPLER0, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER0, true ); if ( hasLightWarpTexture ) { pShaderShadow->EnableTexture( SHADER_SAMPLER6, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER6, false ); } if ( bHasBlendModulateTexture ) { pShaderShadow->EnableTexture( SHADER_SAMPLER3, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER3, false ); } if ( hasBaseTexture2 ) { pShaderShadow->EnableTexture( SHADER_SAMPLER7, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER7, true ); } // if( hasLightmap ) pShaderShadow->EnableTexture( SHADER_SAMPLER1, true ); if( g_pHardwareConfig->GetHDRType() == HDR_TYPE_NONE ) { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER1, true ); } else { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER1, false ); } if( hasEnvmap || ( IsX360() && hasFlashlight ) ) { if( hasEnvmap ) { pShaderShadow->EnableTexture( SHADER_SAMPLER2, true ); if( g_pHardwareConfig->GetHDRType() == HDR_TYPE_NONE ) { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER2, true ); } } flags |= VERTEX_TANGENT_S | VERTEX_TANGENT_T | VERTEX_NORMAL; } int nDetailBlendMode = 0; if ( hasDetailTexture ) { nDetailBlendMode = GetIntParam( info.m_nDetailTextureCombineMode, params ); ITexture *pDetailTexture = params[info.m_nDetail]->GetTextureValue(); if ( pDetailTexture->GetFlags() & TEXTUREFLAGS_SSBUMP ) { if ( hasBump ) nDetailBlendMode = 10; // ssbump else nDetailBlendMode = 11; // ssbump_nobump } } if( hasDetailTexture ) { pShaderShadow->EnableTexture( SHADER_SAMPLER12, true ); bool bSRGBState = ( nDetailBlendMode == 1 ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER12, bSRGBState ); } if( hasBump || hasNormalMapAlphaEnvmapMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER4, true ); if ( nNormalDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { pShaderShadow->EnableTexture( SHADER_SAMPLER9, true ); // Normal map alpha, in the compressed normal case } } if( hasBump2 ) { pShaderShadow->EnableTexture( SHADER_SAMPLER5, true ); if ( nNormalDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { pShaderShadow->EnableTexture( SHADER_SAMPLER10, true ); // Secondary normal alpha, in the compressed normal case } } if( hasBumpMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER8, true ); if ( nNormalMaskDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { pShaderShadow->EnableTexture( SHADER_SAMPLER11, true ); // Normal mask alpha, in the compressed normal case } } if( hasEnvmapMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER5, true ); } if( hasFlashlight && IsX360() ) { pShaderShadow->EnableTexture( SHADER_SAMPLER13, true ); pShaderShadow->EnableTexture( SHADER_SAMPLER14, true ); pShaderShadow->SetShadowDepthFiltering( SHADER_SAMPLER14 ); pShaderShadow->EnableTexture( SHADER_SAMPLER15, true ); } if( hasVertexColor || hasBaseTexture2 || hasBump2 ) { flags |= VERTEX_COLOR; } // texcoord0 : base texcoord // texcoord1 : lightmap texcoord // texcoord2 : lightmap texcoord offset int numTexCoords = 2; if( hasBump ) { numTexCoords = 3; } pShaderShadow->VertexShaderVertexFormat( flags, numTexCoords, 0, 0 ); // Pre-cache pixel shaders bool hasBaseAlphaEnvmapMask = IS_FLAG_SET( MATERIAL_VAR_BASEALPHAENVMAPMASK ); int bumpmap_variant=(hasSSBump) ? 2 : hasBump; bool bMaskedBlending=( (info.m_nMaskedBlending != -1) && (params[info.m_nMaskedBlending]->GetIntValue() != 0) ); DECLARE_STATIC_VERTEX_SHADER( sdk_lightmappedgeneric_vs20 ); SET_STATIC_VERTEX_SHADER_COMBO( ENVMAP_MASK, hasEnvmapMask ); SET_STATIC_VERTEX_SHADER_COMBO( TANGENTSPACE, params[info.m_nEnvmap]->IsTexture() ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMAP, hasBump ); SET_STATIC_VERTEX_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXCOLOR, IS_FLAG_SET( MATERIAL_VAR_VERTEXCOLOR ) ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXALPHATEXBLENDFACTOR, hasBaseTexture2 || hasBump2 ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMASK, hasBumpMask ); bool bReliefMapping = false; //( bumpmap_variant == 2 ) && ( ! bSeamlessMapping ); SET_STATIC_VERTEX_SHADER_COMBO( RELIEF_MAPPING, false );//bReliefMapping ); SET_STATIC_VERTEX_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); #ifdef _X360 SET_STATIC_VERTEX_SHADER_COMBO( FLASHLIGHT, hasFlashlight); #endif SET_STATIC_VERTEX_SHADER(sdk_lightmappedgeneric_vs20); if ( g_pHardwareConfig->SupportsPixelShaders_2_b() ) { DECLARE_STATIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20b); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2, hasBaseTexture2 ); SET_STATIC_PIXEL_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP, bumpmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP2, hasBump2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_PIXEL_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_PIXEL_SHADER_COMBO( CUBEMAP, hasEnvmap ); SET_STATIC_PIXEL_SHADER_COMBO( ENVMAPMASK, hasEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASEALPHAENVMAPMASK, hasBaseAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_PIXEL_SHADER_COMBO( NORMALMAPALPHAENVMAPMASK, hasNormalMapAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURENOENVMAP, params[info.m_nBaseTextureNoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2NOENVMAP, params[info.m_nBaseTexture2NoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( WARPLIGHTING, hasLightWarpTexture ); SET_STATIC_PIXEL_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_PIXEL_SHADER_COMBO( MASKEDBLENDING, bMaskedBlending); SET_STATIC_PIXEL_SHADER_COMBO( RELIEF_MAPPING, bReliefMapping ); SET_STATIC_PIXEL_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_PIXEL_SHADER_COMBO( OUTLINE, bHasOutline ); SET_STATIC_PIXEL_SHADER_COMBO( SOFTEDGES, bHasSoftEdges ); SET_STATIC_PIXEL_SHADER_COMBO( DETAIL_BLEND_MODE, nDetailBlendMode ); SET_STATIC_PIXEL_SHADER_COMBO( NORMAL_DECODE_MODE, (int) nNormalDecodeMode ); SET_STATIC_PIXEL_SHADER_COMBO( NORMALMASK_DECODE_MODE, (int) nNormalMaskDecodeMode ); // Parallax cubemaps enabled for 2_0b and onwards SET_STATIC_PIXEL_SHADER_COMBO( PARALLAXCORRECT, hasParallaxCorrection ); #ifdef _X360 SET_STATIC_PIXEL_SHADER_COMBO( FLASHLIGHT, hasFlashlight); #endif SET_STATIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20b); } else { DECLARE_STATIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2, hasBaseTexture2 ); SET_STATIC_PIXEL_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP, bumpmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP2, hasBump2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_PIXEL_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_PIXEL_SHADER_COMBO( CUBEMAP, hasEnvmap ); SET_STATIC_PIXEL_SHADER_COMBO( ENVMAPMASK, hasEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASEALPHAENVMAPMASK, hasBaseAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_PIXEL_SHADER_COMBO( NORMALMAPALPHAENVMAPMASK, hasNormalMapAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURENOENVMAP, params[info.m_nBaseTextureNoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2NOENVMAP, params[info.m_nBaseTexture2NoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( WARPLIGHTING, hasLightWarpTexture ); SET_STATIC_PIXEL_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_PIXEL_SHADER_COMBO( MASKEDBLENDING, bMaskedBlending); SET_STATIC_PIXEL_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_PIXEL_SHADER_COMBO( OUTLINE, bHasOutline ); SET_STATIC_PIXEL_SHADER_COMBO( SOFTEDGES, bHasSoftEdges ); SET_STATIC_PIXEL_SHADER_COMBO( DETAIL_BLEND_MODE, nDetailBlendMode ); SET_STATIC_PIXEL_SHADER_COMBO( NORMAL_DECODE_MODE, 0 ); // No normal compression with ps_2_0 (yikes!) SET_STATIC_PIXEL_SHADER_COMBO( NORMALMASK_DECODE_MODE, 0 ); // No normal compression with ps_2_0 // Parallax cubemaps SET_STATIC_PIXEL_SHADER_COMBO(PARALLAXCORRECT, 0); // No parallax cubemaps with ps_2_0 SET_STATIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20); } // HACK HACK HACK - enable alpha writes all the time so that we have them for // underwater stuff and writing depth to dest alpha // But only do it if we're not using the alpha already for translucency pShaderShadow->EnableAlphaWrites( bFullyOpaque ); pShaderShadow->EnableSRGBWrite( true ); pShader->DefaultFog(); } // end shadow state } // end shadow || regen display list if ( pShaderAPI && pContextData->m_bMaterialVarsChanged ) { // need to regenerate the semistatic cmds pContextData->m_SemiStaticCmdsOut.Reset(); pContextData->m_bMaterialVarsChanged = false; bool bHasBlendMaskTransform= ( (info.m_nBlendMaskTransform != -1) && (info.m_nMaskedBlending != -1) && (params[info.m_nMaskedBlending]->GetIntValue() ) && ( ! (params[info.m_nBumpTransform]->MatrixIsIdentity() ) ) ); // If we don't have a texture transform, we don't have // to set vertex shader constants or run vertex shader instructions // for the texture transform. bool bHasTextureTransform = !( params[info.m_nBaseTextureTransform]->MatrixIsIdentity() && params[info.m_nBumpTransform]->MatrixIsIdentity() && params[info.m_nBumpTransform2]->MatrixIsIdentity() && params[info.m_nEnvmapMaskTransform]->MatrixIsIdentity() ); bHasTextureTransform |= bHasBlendMaskTransform; pContextData->m_bVertexShaderFastPath = !bHasTextureTransform; if( params[info.m_nDetail]->IsTexture() ) { pContextData->m_bVertexShaderFastPath = false; } if (bHasBlendMaskTransform) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_10, info.m_nBlendMaskTransform ); } if ( ! pContextData->m_bVertexShaderFastPath ) { bool bSeamlessMapping = ( ( info.m_nSeamlessMappingScale != -1 ) && ( params[info.m_nSeamlessMappingScale]->GetFloatValue() != 0.0 ) ); bool hasEnvmapMask = params[info.m_nEnvmapMask]->IsTexture(); if (!bSeamlessMapping ) pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_0, info.m_nBaseTextureTransform ); // If we have a detail texture, then the bump texcoords are the same as the base texcoords. if( hasBump && !hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_2, info.m_nBumpTransform ); } if( hasEnvmapMask ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_4, info.m_nEnvmapMaskTransform ); } else if ( hasBump2 ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_4, info.m_nBumpTransform2 ); } } pContextData->m_SemiStaticCmdsOut.SetEnvMapTintPixelShaderDynamicState( 0, info.m_nEnvmapTint ); // set up shader modulation color float color[4] = { 1.0, 1.0, 1.0, 1.0 }; pShader->ComputeModulationColor( color ); float flLScale = pShaderAPI->GetLightMapScaleFactor(); color[0] *= flLScale; color[1] *= flLScale; color[2] *= flLScale; pContextData->m_SemiStaticCmdsOut.SetVertexShaderConstant( VERTEX_SHADER_MODULATION_COLOR, color ); color[3] *= ( IS_PARAM_DEFINED( info.m_nAlpha2 ) && params[ info.m_nAlpha2 ]->GetFloatValue() > 0.0f ) ? params[ info.m_nAlpha2 ]->GetFloatValue() : 1.0f; pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 12, color ); if ( hasDetailTexture ) { float detailTintAndBlend[4] = {1, 1, 1, 1}; if ( info.m_nDetailTint != -1 ) { params[info.m_nDetailTint]->GetVecValue( detailTintAndBlend, 3 ); } detailTintAndBlend[3] = fDetailBlendFactor; pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 8, detailTintAndBlend ); } float envmapTintVal[4]; float selfIllumTintVal[4]; params[info.m_nEnvmapTint]->GetVecValue( envmapTintVal, 3 ); params[info.m_nSelfIllumTint]->GetVecValue( selfIllumTintVal, 3 ); float envmapContrast = params[info.m_nEnvmapContrast]->GetFloatValue(); float envmapSaturation = params[info.m_nEnvmapSaturation]->GetFloatValue(); float fresnelReflection = params[info.m_nFresnelReflection]->GetFloatValue(); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); pContextData->m_bPixelShaderFastPath = true; bool bUsingContrast = hasEnvmap && ( (envmapContrast != 0.0f) && (envmapContrast != 1.0f) ) && (envmapSaturation != 1.0f); bool bUsingFresnel = hasEnvmap && (fresnelReflection != 1.0f); bool bUsingSelfIllumTint = IS_FLAG_SET(MATERIAL_VAR_SELFILLUM) && (selfIllumTintVal[0] != 1.0f || selfIllumTintVal[1] != 1.0f || selfIllumTintVal[2] != 1.0f); if ( bUsingContrast || bUsingFresnel || bUsingSelfIllumTint || !g_pConfig->bShowSpecular ) { pContextData->m_bPixelShaderFastPath = false; } if( !pContextData->m_bPixelShaderFastPath ) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstants( 2, 3 ); pContextData->m_SemiStaticCmdsOut.OutputConstantData( params[info.m_nEnvmapContrast]->GetVecValue() ); pContextData->m_SemiStaticCmdsOut.OutputConstantData( params[info.m_nEnvmapSaturation]->GetVecValue() ); float flFresnel = params[info.m_nFresnelReflection]->GetFloatValue(); // [ 0, 0, 1-R(0), R(0) ] pContextData->m_SemiStaticCmdsOut.OutputConstantData4( 0., 0., 1.0 - flFresnel, flFresnel ); pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 7, params[info.m_nSelfIllumTint]->GetVecValue() ); } else { if ( bHasOutline ) { float flOutlineParms[8] = { GetFloatParam( info.m_nOutlineStart0, params ), GetFloatParam( info.m_nOutlineStart1, params ), GetFloatParam( info.m_nOutlineEnd0, params ), GetFloatParam( info.m_nOutlineEnd1, params ), 0,0,0, GetFloatParam( info.m_nOutlineAlpha, params ) }; if ( info.m_nOutlineColor != -1 ) { params[info.m_nOutlineColor]->GetVecValue( flOutlineParms + 4, 3 ); } pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 2, flOutlineParms, 2 ); } if ( bHasSoftEdges ) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant4( 4, GetFloatParam( info.m_nEdgeSoftnessStart, params ), GetFloatParam( info.m_nEdgeSoftnessEnd, params ), 0,0 ); } } // texture binds if( hasBaseTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER0, info.m_nBaseTexture, info.m_nBaseTextureFrame ); } // handle mat_fullbright 2 bool bLightingOnly = mat_fullbright.GetInt() == 2 && !IS_FLAG_SET( MATERIAL_VAR_NO_DEBUG_OVERRIDE ); if( bLightingOnly ) { // BASE TEXTURE if( hasSelfIllum ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_GREY_ALPHA_ZERO ); } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_GREY ); } // BASE TEXTURE 2 if( hasBaseTexture2 ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER7, TEXTURE_GREY ); } // DETAIL TEXTURE if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER12, TEXTURE_GREY ); } // disable color modulation float color[4] = { 0.0f, 0.0f, 0.0f, 0.0f }; pContextData->m_SemiStaticCmdsOut.SetVertexShaderConstant( VERTEX_SHADER_MODULATION_COLOR, color ); // turn off environment mapping envmapTintVal[0] = 0.0f; envmapTintVal[1] = 0.0f; envmapTintVal[2] = 0.0f; } // always set the transform for detail textures since I'm assuming that you'll // always have a detailscale. if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureScaledTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_2, info.m_nBaseTextureTransform, info.m_nDetailScale ); } if( hasBaseTexture2 ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER7, info.m_nBaseTexture2, info.m_nBaseTexture2Frame ); } if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER12, info.m_nDetail, info.m_nDetailFrame ); } if( hasBump || hasNormalMapAlphaEnvmapMask ) { if( !g_pConfig->m_bFastNoBump ) { if ( nNormalDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { pContextData->m_SemiStaticCmdsOut.BindMultiTexture( pShader, SHADER_SAMPLER4, SHADER_SAMPLER9, info.m_nBumpmap, info.m_nBumpFrame ); } else { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER4, info.m_nBumpmap, info.m_nBumpFrame ); } } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER4, TEXTURE_NORMALMAP_FLAT ); } } if( hasBump2 ) { if( !g_pConfig->m_bFastNoBump ) { if ( nNormalDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { pContextData->m_SemiStaticCmdsOut.BindMultiTexture( pShader, SHADER_SAMPLER5, SHADER_SAMPLER10, info.m_nBumpmap2, info.m_nBumpFrame2 ); } else { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER5, info.m_nBumpmap2, info.m_nBumpFrame2 ); } } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER5, TEXTURE_NORMALMAP_FLAT ); } } if( hasBumpMask ) { if( !g_pConfig->m_bFastNoBump ) { if ( nNormalMaskDecodeMode == NORMAL_DECODE_ATI2N_ALPHA ) { Assert(0); //pContextData->m_SemiStaticCmdsOut.BindTexture( SHADER_SAMPLER8, SHADER_SAMPLER11, info.m_nBumpMask ); } else { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER8, info.m_nBumpMask, -1 ); } } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER8, TEXTURE_NORMALMAP_FLAT ); } } if( hasEnvmapMask ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER5, info.m_nEnvmapMask, info.m_nEnvmapMaskFrame ); } if ( hasLightWarpTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER6, info.m_nLightWarpTexture, -1 ); } if ( bHasBlendModulateTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER3, info.m_nBlendModulateTexture, -1 ); } // Parallax cubemaps if (hasParallaxCorrection) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant(21, params[info.m_nEnvmapOrigin]->GetVecValue()); float* vecs[3]; vecs[0] = const_cast<float*>(params[info.m_nEnvmapParallaxObb1]->GetVecValue()); vecs[1] = const_cast<float*>(params[info.m_nEnvmapParallaxObb2]->GetVecValue()); vecs[2] = const_cast<float*>(params[info.m_nEnvmapParallaxObb3]->GetVecValue()); float matrix[4][4]; for (int i = 0; i < 3; i++) { for (int j = 0; j < 4; j++) { matrix[i][j] = vecs[i][j]; } } matrix[3][0] = matrix[3][1] = matrix[3][2] = 0; matrix[3][3] = 1; pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant(22, &matrix[0][0], 4); } pContextData->m_SemiStaticCmdsOut.End(); } } DYNAMIC_STATE { CCommandBufferBuilder< CFixedCommandStorageBuffer< 1000 > > DynamicCmdsOut; DynamicCmdsOut.Call( pContextData->m_pStaticCmds ); DynamicCmdsOut.Call( pContextData->m_SemiStaticCmdsOut.Base() ); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); if( hasEnvmap ) { DynamicCmdsOut.BindTexture( pShader, SHADER_SAMPLER2, info.m_nEnvmap, info.m_nEnvmapFrame ); } int nFixedLightingMode = pShaderAPI->GetIntRenderingParameter( INT_RENDERPARM_ENABLE_FIXED_LIGHTING ); bool bVertexShaderFastPath = pContextData->m_bVertexShaderFastPath; if( nFixedLightingMode != 0 ) { if ( pContextData->m_bPixelShaderForceFastPathBecauseOutline ) nFixedLightingMode = 0; else bVertexShaderFastPath = false; } MaterialFogMode_t fogType = pShaderAPI->GetSceneFogMode(); DECLARE_DYNAMIC_VERTEX_SHADER(sdk_lightmappedgeneric_vs20); SET_DYNAMIC_VERTEX_SHADER_COMBO( DOWATERFOG, fogType == MATERIAL_FOG_LINEAR_BELOW_FOG_Z ); SET_DYNAMIC_VERTEX_SHADER_COMBO( FASTPATH, bVertexShaderFastPath ); SET_DYNAMIC_VERTEX_SHADER_COMBO( LIGHTING_PREVIEW, (nFixedLightingMode)?1:0 ); SET_DYNAMIC_VERTEX_SHADER_CMD(DynamicCmdsOut, sdk_lightmappedgeneric_vs20); bool bPixelShaderFastPath = pContextData->m_bPixelShaderFastPath; if( nFixedLightingMode !=0 ) { bPixelShaderFastPath = false; } bool bWriteDepthToAlpha; bool bWriteWaterFogToAlpha; if( pContextData->m_bFullyOpaque ) { bWriteDepthToAlpha = pShaderAPI->ShouldWriteDepthToDestAlpha(); bWriteWaterFogToAlpha = (fogType == MATERIAL_FOG_LINEAR_BELOW_FOG_Z); AssertMsg( !(bWriteDepthToAlpha && bWriteWaterFogToAlpha), "Can't write two values to alpha at the same time." ); } else { //can't write a special value to dest alpha if we're actually using as-intended alpha bWriteDepthToAlpha = false; bWriteWaterFogToAlpha = false; } float envmapContrast = params[info.m_nEnvmapContrast]->GetFloatValue(); if ( g_pHardwareConfig->SupportsPixelShaders_2_b() ) { DECLARE_DYNAMIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20b); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATH, bPixelShaderFastPath || pContextData->m_bPixelShaderForceFastPathBecauseOutline ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATHENVMAPCONTRAST, bPixelShaderFastPath && envmapContrast == 1.0f ); SET_DYNAMIC_PIXEL_SHADER_COMBO( PIXELFOGTYPE, pShaderAPI->GetPixelFogCombo() ); // Don't write fog to alpha if we're using translucency SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITE_DEPTH_TO_DESTALPHA, bWriteDepthToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITEWATERFOGTODESTALPHA, bWriteWaterFogToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( LIGHTING_PREVIEW, nFixedLightingMode ); SET_DYNAMIC_PIXEL_SHADER_CMD(DynamicCmdsOut, sdk_lightmappedgeneric_ps20b); } else { DECLARE_DYNAMIC_PIXEL_SHADER(sdk_lightmappedgeneric_ps20); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATH, bPixelShaderFastPath ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATHENVMAPCONTRAST, bPixelShaderFastPath && envmapContrast == 1.0f ); SET_DYNAMIC_PIXEL_SHADER_COMBO( PIXELFOGTYPE, pShaderAPI->GetPixelFogCombo() ); // Don't write fog to alpha if we're using translucency SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITEWATERFOGTODESTALPHA, bWriteWaterFogToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( LIGHTING_PREVIEW, nFixedLightingMode ); SET_DYNAMIC_PIXEL_SHADER_CMD(DynamicCmdsOut, sdk_lightmappedgeneric_ps20); } if( hasFlashlight && IsX360() ) { VMatrix worldToTexture; ITexture *pFlashlightDepthTexture; FlashlightState_t flashlightState = pShaderAPI->GetFlashlightStateEx( worldToTexture, &pFlashlightDepthTexture ); DynamicCmdsOut.SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_6, worldToTexture.Base(), 4 ); SetFlashLightColorFromState( flashlightState, pShaderAPI ); float atten[4], pos[4]; atten[0] = flashlightState.m_fConstantAtten; // Set the flashlight attenuation factors atten[1] = flashlightState.m_fLinearAtten; atten[2] = flashlightState.m_fQuadraticAtten; atten[3] = flashlightState.m_FarZ; DynamicCmdsOut.SetPixelShaderConstant( 13, atten, 1 ); pos[0] = flashlightState.m_vecLightOrigin[0]; // Set the flashlight origin pos[1] = flashlightState.m_vecLightOrigin[1]; pos[2] = flashlightState.m_vecLightOrigin[2]; DynamicCmdsOut.SetPixelShaderConstant( 14, pos, 1 ); pShader->BindTexture( SHADER_SAMPLER13, flashlightState.m_pSpotlightTexture, flashlightState.m_nSpotlightTextureFrame ); if( pFlashlightDepthTexture && g_pConfig->ShadowDepthTexture() && flashlightState.m_bEnableShadows ) { pShader->BindTexture( SHADER_SAMPLER14, pFlashlightDepthTexture, 0 ); DynamicCmdsOut.BindStandardTexture( SHADER_SAMPLER15, TEXTURE_SHADOW_NOISE_2D ); // Tweaks associated with a given flashlight float tweaks[4]; tweaks[0] = ShadowFilterFromState( flashlightState ); tweaks[1] = ShadowAttenFromState( flashlightState ); pShader->HashShadow2DJitter( flashlightState.m_flShadowJitterSeed, &tweaks[2], &tweaks[3] ); DynamicCmdsOut.SetPixelShaderConstant( 19, tweaks, 1 ); // Dimensions of screen, used for screen-space noise map sampling float vScreenScale[4] = {1280.0f / 32.0f, 720.0f / 32.0f, 0, 0}; int nWidth, nHeight; pShaderAPI->GetBackBufferDimensions( nWidth, nHeight ); vScreenScale[0] = (float) nWidth / 32.0f; vScreenScale[1] = (float) nHeight / 32.0f; DynamicCmdsOut.SetPixelShaderConstant( 31, vScreenScale, 1 ); } } DynamicCmdsOut.End(); pShaderAPI->ExecuteCommandBuffer( DynamicCmdsOut.Base() ); } pShader->Draw(); if( IsPC() && (IS_FLAG_SET( MATERIAL_VAR_ALPHATEST ) != 0) && pContextData->m_bFullyOpaqueWithoutAlphaTest ) { //Alpha testing makes it so we can't write to dest alpha //Writing to depth makes it so later polygons can't write to dest alpha either //This leads to situations with garbage in dest alpha. //Fix it now by converting depth to dest alpha for any pixels that just wrote. pShader->DrawEqualDepthToDestAlpha(); } }
void DrawLightmappedGeneric_DX9( CBaseVSShader *pShader, IMaterialVar** params, IShaderDynamicAPI *pShaderAPI, IShaderShadow* pShaderShadow, LightmappedGeneric_DX9_Vars_t &info, CBasePerMaterialContextData **pContextDataPtr, bool bDeferredActive ) { //bool bDeferredActive = GetDeferredExt()->IsDeferredLightingEnabled(); bool bSinglePassFlashlight = true; bool hasFlashlight = !bDeferredActive && pShader->UsingFlashlight( params ); CLightmappedGeneric_DX9_Context *pContextData = reinterpret_cast< CLightmappedGeneric_DX9_Context *> ( *pContextDataPtr ); bool bShaderSrgbRead = ( IsX360() && IS_PARAM_DEFINED( info.m_nShaderSrgbRead360 ) && params[info.m_nShaderSrgbRead360]->GetIntValue() ); const bool bHasFoW = true; //( ( info.m_nFoW != -1 ) && ( params[ info.m_nFoW ]->IsTexture() != 0 ) ); if ( pShaderShadow || ( ! pContextData )|| pContextData->m_bMaterialVarsChanged || pContextData->m_bNeedsCmdRegen || ( hasFlashlight && !IsX360() ) ) { bool hasBaseTexture = params[info.m_nBaseTexture]->IsTexture(); int nAlphaChannelTextureVar = hasBaseTexture ? (int)info.m_nBaseTexture : (int)info.m_nEnvmapMask; BlendType_t nBlendType = pShader->EvaluateBlendRequirements( nAlphaChannelTextureVar, hasBaseTexture ); bool bIsAlphaTested = IS_FLAG_SET( MATERIAL_VAR_ALPHATEST ) != 0; bool bFullyOpaqueWithoutAlphaTest = (nBlendType != BT_BLENDADD) && (nBlendType != BT_BLEND) && (!hasFlashlight || IsX360()); //dest alpha is free for special use bool bFullyOpaque = bFullyOpaqueWithoutAlphaTest && !bIsAlphaTested; bool bNeedRegenStaticCmds = (! pContextData ) || pShaderShadow || pContextData->m_bNeedsCmdRegen; if ( ! pContextData ) // make sure allocated { pContextData = new CLightmappedGeneric_DX9_Context; *pContextDataPtr = pContextData; } bool hasBump = ( params[info.m_nBumpmap]->IsTexture() ) && g_pConfig->UseBumpmapping(); bool hasSSBump = hasBump && (info.m_nSelfShadowedBumpFlag != -1) && ( params[info.m_nSelfShadowedBumpFlag]->GetIntValue() ); bool hasBaseTexture2 = hasBaseTexture && params[info.m_nBaseTexture2]->IsTexture(); bool hasLightWarpTexture = params[info.m_nLightWarpTexture]->IsTexture(); bool hasBump2 = hasBump && params[info.m_nBumpmap2]->IsTexture(); bool hasDetailTexture = params[info.m_nDetail]->IsTexture(); bool hasSelfIllum = IS_FLAG_SET( MATERIAL_VAR_SELFILLUM ); bool hasBumpMask = hasBump && hasBump2 && params[info.m_nBumpMask]->IsTexture() && !hasSelfIllum && !hasDetailTexture && !hasBaseTexture2 && (params[info.m_nBaseTextureNoEnvmap]->GetIntValue() == 0); bool bHasBlendModulateTexture = (info.m_nBlendModulateTexture != -1) && (params[info.m_nBlendModulateTexture]->IsTexture() ); bool hasNormalMapAlphaEnvmapMask = g_pConfig->UseSpecular() && IS_FLAG_SET( MATERIAL_VAR_NORMALMAPALPHAENVMAPMASK ); if( g_pConfig->bEditMode ) { hasBump = false; hasBump2 = false; } bool bParallaxMapping = false; if ( g_pHardwareConfig->SupportsPixelShaders_2_b() ) bParallaxMapping = ( info.m_nParallaxMap != -1 ) && ( params[info.m_nParallaxMap]->GetIntValue() != 0 ); if ( hasFlashlight && !IsX360() ) { // !!speed!! do this in the caller so we don't build struct every time CBaseVSShader::DrawFlashlight_dx90_Vars_t vars; vars.m_bBump = hasBump; vars.m_nBumpmapVar = info.m_nBumpmap; vars.m_nBumpmapFrame = info.m_nBumpFrame; vars.m_nBumpTransform = info.m_nBumpTransform; vars.m_nFlashlightTextureVar = info.m_nFlashlightTexture; vars.m_nFlashlightTextureFrameVar = info.m_nFlashlightTextureFrame; vars.m_bLightmappedGeneric = true; vars.m_bWorldVertexTransition = hasBaseTexture2; vars.m_nBaseTexture2Var = info.m_nBaseTexture2; vars.m_nBaseTexture2FrameVar = info.m_nBaseTexture2Frame; vars.m_nBumpmap2Var = info.m_nBumpmap2; vars.m_nBumpmap2Frame = info.m_nBumpFrame2; vars.m_nBump2Transform = info.m_nBumpTransform2; vars.m_nAlphaTestReference = info.m_nAlphaTestReference; vars.m_bSSBump = hasSSBump; vars.m_nDetailVar = info.m_nDetail; vars.m_nDetailScale = info.m_nDetailScale; vars.m_nDetailTextureCombineMode = info.m_nDetailTextureCombineMode; vars.m_nDetailTextureBlendFactor = info.m_nDetailTextureBlendFactor; vars.m_nDetailTint = info.m_nDetailTint; if ( ( info.m_nSeamlessMappingScale != -1 ) ) vars.m_fSeamlessScale = params[info.m_nSeamlessMappingScale]->GetFloatValue(); else vars.m_fSeamlessScale = 0.0; pShader->DrawFlashlight_dx90( params, pShaderAPI, pShaderShadow, vars ); return; } pContextData->m_bFullyOpaque = bFullyOpaque; pContextData->m_bFullyOpaqueWithoutAlphaTest = bFullyOpaqueWithoutAlphaTest; bool bHasOutline = IsBoolSet( info.m_nOutline, params ); pContextData->m_bPixelShaderForceFastPathBecauseOutline = bHasOutline; bool bHasSoftEdges = IsBoolSet( info.m_nSoftEdges, params ); bool hasEnvmapMask = params[info.m_nEnvmapMask]->IsTexture() && !bHasFoW; float fDetailBlendFactor = GetFloatParam( info.m_nDetailTextureBlendFactor, params, 1.0 ); if ( pShaderShadow || bNeedRegenStaticCmds ) { bool hasVertexColor = IS_FLAG_SET( MATERIAL_VAR_VERTEXCOLOR ); bool hasDiffuseBumpmap = hasBump && (params[info.m_nNoDiffuseBumpLighting]->GetIntValue() == 0); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); int envmap_variant; //0 = no envmap, 1 = regular, 2 = darken in shadow mode if( hasEnvmap ) { //only enabled darkened cubemap mode when the scale calls for it. And not supported in ps20 when also using a 2nd bumpmap envmap_variant = ((GetFloatParam( info.m_nEnvMapLightScale, params ) > 0.0f) && (g_pHardwareConfig->SupportsPixelShaders_2_b() || !hasBump2)) ? 2 : 1; } else { envmap_variant = 0; } bool bSeamlessMapping = ( ( info.m_nSeamlessMappingScale != -1 ) && ( params[info.m_nSeamlessMappingScale]->GetFloatValue() != 0.0 ) ); if ( bNeedRegenStaticCmds ) { pContextData->m_bNeedsCmdRegen = false; pContextData->ResetStaticCmds(); CCommandBufferBuilder< CFixedCommandStorageBuffer< 5000 > > staticCmdsBuf; int nLightingPreviewMode = !bHasFoW ? IS_FLAG2_SET( MATERIAL_VAR2_USE_GBUFFER0 ) + 2 * IS_FLAG2_SET( MATERIAL_VAR2_USE_GBUFFER1 ) : 0; if ( ( nLightingPreviewMode == ENABLE_FIXED_LIGHTING_OUTPUTNORMAL_AND_DEPTH ) && IsPC() ) { staticCmdsBuf.SetVertexShaderNearAndFarZ( VERTEX_SHADER_SHADER_SPECIFIC_CONST_6 ); // Needed for SSAO } if( !hasBaseTexture ) { if( hasEnvmap ) { // if we only have an envmap (no basetexture), then we want the albedo to be black. staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_BLACK ); } else { staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_WHITE ); } } staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER1, TEXTURE_LIGHTMAP ); if ( g_pConfig->m_bPaintInGame && !r_twopasspaint.GetBool() ) { staticCmdsBuf.BindStandardTexture( SHADER_SAMPLER9, TEXTURE_PAINT ); } if ( bSeamlessMapping ) { staticCmdsBuf.SetVertexShaderConstant4( VERTEX_SHADER_SHADER_SPECIFIC_CONST_0, params[info.m_nSeamlessMappingScale]->GetFloatValue(),0,0,0 ); } staticCmdsBuf.StoreEyePosInPixelShaderConstant( 10 ); staticCmdsBuf.SetPixelShaderFogParams( 11 ); staticCmdsBuf.End(); // now, copy buf pContextData->m_pStaticCmds = new uint8[staticCmdsBuf.Size()]; memcpy( pContextData->m_pStaticCmds, staticCmdsBuf.Base(), staticCmdsBuf.Size() ); } if ( pShaderShadow ) { // Alpha test: FIXME: shouldn't this be handled in Shader_t::SetInitialShadowState pShaderShadow->EnableAlphaTest( bIsAlphaTested ); if ( info.m_nAlphaTestReference != -1 && params[info.m_nAlphaTestReference]->GetFloatValue() > 0.0f ) { pShaderShadow->AlphaFunc( SHADER_ALPHAFUNC_GEQUAL, params[info.m_nAlphaTestReference]->GetFloatValue() ); } pShader->SetDefaultBlendingShadowState( nAlphaChannelTextureVar, hasBaseTexture ); unsigned int flags = VERTEX_POSITION; // base texture pShaderShadow->EnableTexture( SHADER_SAMPLER0, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER0, !bShaderSrgbRead ); if ( g_pConfig->m_bPaintInGame && !r_twopasspaint.GetBool() ) { pShaderShadow->EnableTexture( SHADER_SAMPLER9, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER9, !bShaderSrgbRead ); } if ( hasLightWarpTexture ) { pShaderShadow->EnableTexture( SHADER_SAMPLER6, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER6, false ); } if ( bHasBlendModulateTexture ) { pShaderShadow->EnableTexture( SHADER_SAMPLER3, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER3, false ); } if ( hasBaseTexture2 ) { pShaderShadow->EnableTexture( SHADER_SAMPLER7, true ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER7, !bShaderSrgbRead ); } // if( hasLightmap ) pShaderShadow->EnableTexture( SHADER_SAMPLER1, true ); if( g_pHardwareConfig->GetHDRType() == HDR_TYPE_NONE ) { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER1, true ); } else { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER1, false ); } if( hasEnvmap || ( IsX360() && hasFlashlight ) ) { if( hasEnvmap ) { pShaderShadow->EnableTexture( SHADER_SAMPLER2, true ); if( g_pHardwareConfig->GetHDRType() == HDR_TYPE_NONE ) { pShaderShadow->EnableSRGBRead( SHADER_SAMPLER2, true ); } } flags |= VERTEX_TANGENT_S | VERTEX_TANGENT_T | VERTEX_NORMAL; } #define TCOMBINE_NONE 12 // there is no detail texture int nDetailBlendMode = TCOMBINE_NONE; if ( hasDetailTexture ) { nDetailBlendMode = GetIntParam( info.m_nDetailTextureCombineMode, params ); ITexture *pDetailTexture = params[info.m_nDetail]->GetTextureValue(); if ( pDetailTexture->GetFlags() & TEXTUREFLAGS_SSBUMP ) { if ( hasBump ) nDetailBlendMode = 10; // ssbump else nDetailBlendMode = 11; // ssbump_nobump } pShaderShadow->EnableTexture( SHADER_SAMPLER12, true ); bool bSRGBState = ( nDetailBlendMode == 1 ); pShaderShadow->EnableSRGBRead( SHADER_SAMPLER12, bSRGBState ); } // Hijack detail blend mode 9 for paint (this blend mode was previously skipped/unused in lightmappedgeneric) if ( g_pConfig->m_bPaintInGame && !r_twopasspaint.GetBool() ) { nDetailBlendMode = 9; } if( hasBump || hasNormalMapAlphaEnvmapMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER4, true ); } if( hasBump2 ) { pShaderShadow->EnableTexture( SHADER_SAMPLER5, true ); } if( hasBumpMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER8, true ); } if( hasEnvmapMask ) { pShaderShadow->EnableTexture( SHADER_SAMPLER5, true ); } if( bHasFoW ) { pShaderShadow->EnableTexture( SHADER_SAMPLER13, true ); } if( bDeferredActive ) { pShaderShadow->EnableTexture( SHADER_SAMPLER14, true ); pShaderShadow->EnableTexture( SHADER_SAMPLER15, true ); } if( hasFlashlight && IsX360() ) { pShaderShadow->EnableTexture( SHADER_SAMPLER13, true ); pShaderShadow->EnableTexture( SHADER_SAMPLER14, true ); pShaderShadow->SetShadowDepthFiltering( SHADER_SAMPLER14 ); pShaderShadow->EnableTexture( SHADER_SAMPLER15, true ); } if( hasVertexColor || hasBaseTexture2 || hasBump2 ) { flags |= VERTEX_COLOR; } // texcoord0 : base texcoord // texcoord1 : lightmap texcoord // texcoord2 : lightmap texcoord offset int numTexCoords; // if ( pShaderAPI->InEditorMode() ) // if ( pShader->CanUseEditorMaterials() ) // { // numTexCoords = 1; // } // else { numTexCoords = 2; if( hasBump ) { numTexCoords = 3; } } int nLightingPreviewMode = !bHasFoW ? IS_FLAG2_SET( MATERIAL_VAR2_USE_GBUFFER0 ) + 2 * IS_FLAG2_SET( MATERIAL_VAR2_USE_GBUFFER1 ) : 0; pShaderShadow->VertexShaderVertexFormat( flags, numTexCoords, 0, 0 ); // Pre-cache pixel shaders bool hasBaseAlphaEnvmapMask = IS_FLAG_SET( MATERIAL_VAR_BASEALPHAENVMAPMASK ); int bumpmap_variant=(hasSSBump) ? 2 : hasBump; bool bMaskedBlending=( (info.m_nMaskedBlending != -1) && (params[info.m_nMaskedBlending]->GetIntValue() != 0) ); if( bDeferredActive ) { DECLARE_STATIC_VERTEX_SHADER( lightmappedgeneric_deferred_vs30 ); SET_STATIC_VERTEX_SHADER_COMBO( ENVMAP_MASK, hasEnvmapMask ); SET_STATIC_VERTEX_SHADER_COMBO( TANGENTSPACE, params[info.m_nEnvmap]->IsTexture() ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMAP, hasBump ); SET_STATIC_VERTEX_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXCOLOR, IS_FLAG_SET( MATERIAL_VAR_VERTEXCOLOR ) ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXALPHATEXBLENDFACTOR, hasBaseTexture2 || hasBump2 ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_VERTEX_SHADER_COMBO( LIGHTING_PREVIEW, nLightingPreviewMode ); SET_STATIC_VERTEX_SHADER_COMBO( PARALLAX_MAPPING, bParallaxMapping ); SET_STATIC_VERTEX_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_VERTEX_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_VERTEX_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_VERTEX_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_VERTEX_SHADER_COMBO( FOW, bHasFoW ); SET_STATIC_VERTEX_SHADER( lightmappedgeneric_deferred_vs30 ); DECLARE_STATIC_PIXEL_SHADER( lightmappedgeneric_deferred_ps30 ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2, hasBaseTexture2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP, bumpmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP2, hasBump2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_PIXEL_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_PIXEL_SHADER_COMBO( CUBEMAP, envmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( ENVMAPMASK, hasEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASEALPHAENVMAPMASK, hasBaseAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_PIXEL_SHADER_COMBO( NORMALMAPALPHAENVMAPMASK, hasNormalMapAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURENOENVMAP, params[info.m_nBaseTextureNoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2NOENVMAP, params[info.m_nBaseTexture2NoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( WARPLIGHTING, hasLightWarpTexture ); SET_STATIC_PIXEL_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_PIXEL_SHADER_COMBO( MASKEDBLENDING, bMaskedBlending); SET_STATIC_PIXEL_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_PIXEL_SHADER_COMBO( OUTLINE, bHasOutline ); SET_STATIC_PIXEL_SHADER_COMBO( SOFTEDGES, bHasSoftEdges ); SET_STATIC_PIXEL_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_PIXEL_SHADER_COMBO( DETAIL_BLEND_MODE, nDetailBlendMode ); SET_STATIC_PIXEL_SHADER_COMBO( PARALLAX_MAPPING, bParallaxMapping ); SET_STATIC_PIXEL_SHADER_COMBO( SHADER_SRGB_READ, bShaderSrgbRead ); SET_STATIC_PIXEL_SHADER_COMBO( LIGHTING_PREVIEW, nLightingPreviewMode ); SET_STATIC_PIXEL_SHADER( lightmappedgeneric_deferred_ps30 ); } else { DECLARE_STATIC_VERTEX_SHADER( lightmappedgeneric_vs30 ); SET_STATIC_VERTEX_SHADER_COMBO( ENVMAP_MASK, hasEnvmapMask ); SET_STATIC_VERTEX_SHADER_COMBO( TANGENTSPACE, params[info.m_nEnvmap]->IsTexture() ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMAP, hasBump ); SET_STATIC_VERTEX_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXCOLOR, IS_FLAG_SET( MATERIAL_VAR_VERTEXCOLOR ) ); SET_STATIC_VERTEX_SHADER_COMBO( VERTEXALPHATEXBLENDFACTOR, hasBaseTexture2 || hasBump2 ); SET_STATIC_VERTEX_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_VERTEX_SHADER_COMBO( LIGHTING_PREVIEW, nLightingPreviewMode ); SET_STATIC_VERTEX_SHADER_COMBO( PARALLAX_MAPPING, bParallaxMapping ); SET_STATIC_VERTEX_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_VERTEX_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_VERTEX_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_VERTEX_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_VERTEX_SHADER_COMBO( FOW, bHasFoW ); SET_STATIC_VERTEX_SHADER( lightmappedgeneric_vs30 ); DECLARE_STATIC_PIXEL_SHADER( lightmappedgeneric_ps30 ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2, hasBaseTexture2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP, bumpmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMAP2, hasBump2 ); SET_STATIC_PIXEL_SHADER_COMBO( BUMPMASK, hasBumpMask ); SET_STATIC_PIXEL_SHADER_COMBO( DIFFUSEBUMPMAP, hasDiffuseBumpmap ); SET_STATIC_PIXEL_SHADER_COMBO( CUBEMAP, envmap_variant ); SET_STATIC_PIXEL_SHADER_COMBO( ENVMAPMASK, hasEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASEALPHAENVMAPMASK, hasBaseAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( SELFILLUM, hasSelfIllum ); SET_STATIC_PIXEL_SHADER_COMBO( NORMALMAPALPHAENVMAPMASK, hasNormalMapAlphaEnvmapMask ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURENOENVMAP, params[info.m_nBaseTextureNoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( BASETEXTURE2NOENVMAP, params[info.m_nBaseTexture2NoEnvmap]->GetIntValue() ); SET_STATIC_PIXEL_SHADER_COMBO( WARPLIGHTING, hasLightWarpTexture ); SET_STATIC_PIXEL_SHADER_COMBO( FANCY_BLENDING, bHasBlendModulateTexture ); SET_STATIC_PIXEL_SHADER_COMBO( MASKEDBLENDING, bMaskedBlending); SET_STATIC_PIXEL_SHADER_COMBO( SEAMLESS, bSeamlessMapping ); SET_STATIC_PIXEL_SHADER_COMBO( OUTLINE, bHasOutline ); SET_STATIC_PIXEL_SHADER_COMBO( SOFTEDGES, bHasSoftEdges ); SET_STATIC_PIXEL_SHADER_COMBO( DETAILTEXTURE, hasDetailTexture ); SET_STATIC_PIXEL_SHADER_COMBO( DETAIL_BLEND_MODE, nDetailBlendMode ); SET_STATIC_PIXEL_SHADER_COMBO( PARALLAX_MAPPING, bParallaxMapping ); SET_STATIC_PIXEL_SHADER_COMBO( SHADER_SRGB_READ, bShaderSrgbRead ); SET_STATIC_PIXEL_SHADER_COMBO( LIGHTING_PREVIEW, nLightingPreviewMode ); SET_STATIC_PIXEL_SHADER( lightmappedgeneric_ps30 ); } // HACK HACK HACK - enable alpha writes all the time so that we have them for // underwater stuff and writing depth to dest alpha // But only do it if we're not using the alpha already for translucency pShaderShadow->EnableAlphaWrites( bFullyOpaque ); pShaderShadow->EnableSRGBWrite( true ); pShader->DefaultFog(); // NOTE: This isn't optimal. If $color2 is ever changed by a material // proxy, this code won't get re-run, but too bad. No time to make this work // Also note that if the lightmap scale factor changes // all shadow state blocks will be re-run, so that's ok float flLScale = pShaderShadow->GetLightMapScaleFactor(); pShader->PI_BeginCommandBuffer(); pShader->PI_SetModulationPixelShaderDynamicState( 21 ); // MAINTOL4DMERGEFIXME // Need to reflect this change which is from this rel changelist since this constant set was moved from the dynamic block to here: // Change 578692 by Alex@alexv_rel on 2008/06/04 18:07:31 // // Fix for portalareawindows in ep2 being rendered black. The color variable was being multipurposed for both the vs and ps differently where the ps doesn't care about alpha, but the vs does. Only applying the alpha2 DoD hack to the pixel shader constant where the alpha was never used in the first place and leaving alpha as is for the vs. // color[3] *= ( IS_PARAM_DEFINED( info.m_nAlpha2 ) && params[ info.m_nAlpha2 ]->GetFloatValue() > 0.0f ) ? params[ info.m_nAlpha2 ]->GetFloatValue() : 1.0f; // pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 12, color ); pShader->PI_SetModulationPixelShaderDynamicState_LinearScale_ScaleInW( 12, flLScale ); pShader->PI_SetModulationVertexShaderDynamicState_LinearScale( flLScale ); pShader->PI_EndCommandBuffer(); } // end shadow state } // end shadow || regen display list if ( pShaderAPI && ( pContextData->m_bMaterialVarsChanged ) ) { // need to regenerate the semistatic cmds pContextData->m_SemiStaticCmdsOut.Reset(); pContextData->m_bMaterialVarsChanged = false; bool bHasBlendMaskTransform= ( (info.m_nBlendMaskTransform != -1) && (info.m_nMaskedBlending != -1) && (params[info.m_nMaskedBlending]->GetIntValue() ) && ( ! (params[info.m_nBumpTransform]->MatrixIsIdentity() ) ) ); // If we don't have a texture transform, we don't have // to set vertex shader constants or run vertex shader instructions // for the texture transform. bool bHasTextureTransform = !( params[info.m_nBaseTextureTransform]->MatrixIsIdentity() && params[info.m_nBumpTransform]->MatrixIsIdentity() && params[info.m_nBumpTransform2]->MatrixIsIdentity() && params[info.m_nEnvmapMaskTransform]->MatrixIsIdentity() ); bHasTextureTransform |= bHasBlendMaskTransform; pContextData->m_bVertexShaderFastPath = !bHasTextureTransform; if( params[info.m_nDetail]->IsTexture() ) { pContextData->m_bVertexShaderFastPath = false; } int nTransformToLoad = info.m_nBlendMaskTransform; if( ( hasBump || hasSSBump ) && hasDetailTexture && !hasSelfIllum && !bHasBlendModulateTexture ) { nTransformToLoad = info.m_nBumpTransform; } pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_10, nTransformToLoad ); if ( ! pContextData->m_bVertexShaderFastPath ) { bool bSeamlessMapping = ( ( info.m_nSeamlessMappingScale != -1 ) && ( params[info.m_nSeamlessMappingScale]->GetFloatValue() != 0.0 ) ); bool hasEnvmapMask = params[info.m_nEnvmapMask]->IsTexture() && !bHasFoW; if (!bSeamlessMapping ) pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_0, info.m_nBaseTextureTransform ); // If we have a detail texture, then the bump texcoords are the same as the base texcoords. if( hasBump && !hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_2, info.m_nBumpTransform ); } if( hasEnvmapMask ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_4, info.m_nEnvmapMaskTransform ); } else if ( hasBump2 ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_4, info.m_nBumpTransform2 ); } } pContextData->m_SemiStaticCmdsOut.SetEnvMapTintPixelShaderDynamicState( 0, info.m_nEnvmapTint ); if ( hasDetailTexture ) { float detailTintAndBlend[4] = {1, 1, 1, 1}; if ( info.m_nDetailTint != -1 ) { params[info.m_nDetailTint]->GetVecValue( detailTintAndBlend, 3 ); } detailTintAndBlend[3] = fDetailBlendFactor; pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 8, detailTintAndBlend ); } float envmapTintVal[4]; float selfIllumTintVal[4]; params[info.m_nEnvmapTint]->GetVecValue( envmapTintVal, 3 ); params[info.m_nSelfIllumTint]->GetVecValue( selfIllumTintVal, 3 ); float envmapContrast = params[info.m_nEnvmapContrast]->GetFloatValue(); float envmapSaturation = params[info.m_nEnvmapSaturation]->GetFloatValue(); float fresnelReflection = params[info.m_nFresnelReflection]->GetFloatValue(); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); int envmap_variant; //0 = no envmap, 1 = regular, 2 = darken in shadow mode if( hasEnvmap ) { //only enabled darkened cubemap mode when the scale calls for it. And not supported in ps20 when also using a 2nd bumpmap envmap_variant = ((GetFloatParam( info.m_nEnvMapLightScale, params ) > 0.0f) && (g_pHardwareConfig->SupportsPixelShaders_2_b() || !hasBump2)) ? 2 : 1; } else { envmap_variant = 0; } pContextData->m_bPixelShaderFastPath = true; bool bUsingContrastOrSaturation = hasEnvmap && ( ( (envmapContrast != 0.0f) && (envmapContrast != 1.0f) ) || (envmapSaturation != 1.0f) ); bool bUsingFresnel = hasEnvmap && (fresnelReflection != 1.0f); bool bUsingSelfIllumTint = IS_FLAG_SET(MATERIAL_VAR_SELFILLUM) && (selfIllumTintVal[0] != 1.0f || selfIllumTintVal[1] != 1.0f || selfIllumTintVal[2] != 1.0f); if ( bUsingContrastOrSaturation || bUsingFresnel || bUsingSelfIllumTint || !g_pConfig->bShowSpecular ) { pContextData->m_bPixelShaderFastPath = false; } if( !pContextData->m_bPixelShaderFastPath ) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstants( 2, 3 ); pContextData->m_SemiStaticCmdsOut.OutputConstantData( params[info.m_nEnvmapContrast]->GetVecValue() ); pContextData->m_SemiStaticCmdsOut.OutputConstantData( params[info.m_nEnvmapSaturation]->GetVecValue() ); float flFresnel = params[info.m_nFresnelReflection]->GetFloatValue(); // [ 0, 0, 1-R(0), R(0) ] pContextData->m_SemiStaticCmdsOut.OutputConstantData4( 0., 0., 1.0 - flFresnel, flFresnel ); pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 7, params[info.m_nSelfIllumTint]->GetVecValue() ); } else { if ( bHasOutline ) { float flOutlineParms[8] = { GetFloatParam( info.m_nOutlineStart0, params ), GetFloatParam( info.m_nOutlineStart1, params ), GetFloatParam( info.m_nOutlineEnd0, params ), GetFloatParam( info.m_nOutlineEnd1, params ), 0,0,0, GetFloatParam( info.m_nOutlineAlpha, params ) }; if ( info.m_nOutlineColor != -1 ) { params[info.m_nOutlineColor]->GetVecValue( flOutlineParms + 4, 3 ); } pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant( 2, flOutlineParms, 2 ); } if ( bHasSoftEdges ) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant4( 4, GetFloatParam( info.m_nEdgeSoftnessStart, params ), GetFloatParam( info.m_nEdgeSoftnessEnd, params ), 0,0 ); } } // parallax and cubemap light scale mapping parms (c20) if ( bParallaxMapping || (envmap_variant == 2) ) { pContextData->m_SemiStaticCmdsOut.SetPixelShaderConstant4( 20, GetFloatParam( info.m_nHeightScale, params), GetFloatParam( info.m_nEnvMapLightScale, params), 0, 0 ); } // texture binds if( hasBaseTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER0, info.m_nBaseTexture, info.m_nBaseTextureFrame ); } // handle mat_fullbright 2 bool bLightingOnly = mat_fullbright.GetInt() == 2 && !IS_FLAG_SET( MATERIAL_VAR_NO_DEBUG_OVERRIDE ); if( bLightingOnly ) { // BASE TEXTURE if( hasSelfIllum ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_GREY_ALPHA_ZERO ); } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER0, TEXTURE_GREY ); } // BASE TEXTURE 2 if( hasBaseTexture2 ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER7, TEXTURE_GREY ); } // DETAIL TEXTURE if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER12, TEXTURE_GREY ); } // disable color modulation float color[4] = { 0.0f, 0.0f, 0.0f, 0.0f }; pContextData->m_SemiStaticCmdsOut.SetVertexShaderConstant( VERTEX_SHADER_MODULATION_COLOR, color ); // turn off environment mapping envmapTintVal[0] = 0.0f; envmapTintVal[1] = 0.0f; envmapTintVal[2] = 0.0f; } // always set the transform for detail textures since I'm assuming that you'll // always have a detailscale. if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderTextureScaledTransform( VERTEX_SHADER_SHADER_SPECIFIC_CONST_2, info.m_nBaseTextureTransform, info.m_nDetailScale ); } if( hasBaseTexture2 ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER7, info.m_nBaseTexture2, info.m_nBaseTexture2Frame ); } if( hasDetailTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER12, info.m_nDetail, info.m_nDetailFrame ); } if( hasBump || hasNormalMapAlphaEnvmapMask ) { if( !g_pConfig->m_bFastNoBump ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER4, info.m_nBumpmap, info.m_nBumpFrame ); } else { if( hasSSBump ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER4, TEXTURE_SSBUMP_FLAT ); } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER4, TEXTURE_NORMALMAP_FLAT ); } } } if( hasBump2 ) { if( !g_pConfig->m_bFastNoBump ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER5, info.m_nBumpmap2, info.m_nBumpFrame2 ); } else { if( hasSSBump ) { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER5, TEXTURE_NORMALMAP_FLAT ); } else { pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER5, TEXTURE_SSBUMP_FLAT ); } } } if( hasBumpMask ) { if( !g_pConfig->m_bFastNoBump ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER8, info.m_nBumpMask, -1 ); } else { // this doesn't make sense pContextData->m_SemiStaticCmdsOut.BindStandardTexture( SHADER_SAMPLER8, TEXTURE_NORMALMAP_FLAT ); } } if( hasEnvmapMask ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER5, info.m_nEnvmapMask, info.m_nEnvmapMaskFrame ); } if ( hasLightWarpTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER6, info.m_nLightWarpTexture, -1 ); } if ( bHasBlendModulateTexture ) { pContextData->m_SemiStaticCmdsOut.BindTexture( pShader, SHADER_SAMPLER3, info.m_nBlendModulateTexture, -1 ); } if ( hasFlashlight && IsX360() ) { pContextData->m_SemiStaticCmdsOut.SetVertexShaderFlashlightState( VERTEX_SHADER_SHADER_SPECIFIC_CONST_6 ); CBCmdSetPixelShaderFlashlightState_t state; state.m_LightSampler = SHADER_SAMPLER13; state.m_DepthSampler = SHADER_SAMPLER14; state.m_ShadowNoiseSampler = SHADER_SAMPLER15; state.m_nColorConstant = 28; state.m_nAttenConstant = 13; state.m_nOriginConstant = 14; state.m_nDepthTweakConstant = 19; state.m_nScreenScaleConstant = 31; state.m_nWorldToTextureConstant = -1; state.m_bFlashlightNoLambert = false; state.m_bSinglePassFlashlight = bSinglePassFlashlight; pContextData->m_SemiStaticCmdsOut.SetPixelShaderFlashlightState( state ); } pContextData->m_SemiStaticCmdsOut.End(); } } DYNAMIC_STATE { CCommandBufferBuilder< CFixedCommandStorageBuffer< 1000 > > DynamicCmdsOut; DynamicCmdsOut.Call( pContextData->m_pStaticCmds ); DynamicCmdsOut.Call( pContextData->m_SemiStaticCmdsOut.Base() ); bool hasEnvmap = params[info.m_nEnvmap]->IsTexture(); if( hasEnvmap ) { DynamicCmdsOut.BindTexture( pShader, SHADER_SAMPLER2, info.m_nEnvmap, info.m_nEnvmapFrame ); } bool bVertexShaderFastPath = pContextData->m_bVertexShaderFastPath; int nFixedLightingMode = pShaderAPI->GetIntRenderingParameter( INT_RENDERPARM_ENABLE_FIXED_LIGHTING ); if( nFixedLightingMode != ENABLE_FIXED_LIGHTING_NONE ) { if ( pContextData->m_bPixelShaderForceFastPathBecauseOutline ) { nFixedLightingMode = ENABLE_FIXED_LIGHTING_NONE; } else { bVertexShaderFastPath = false; } } bool bWorldNormal = ( nFixedLightingMode == ENABLE_FIXED_LIGHTING_OUTPUTNORMAL_AND_DEPTH ); if ( bWorldNormal && IsPC() ) { float vEyeDir[4]; pShaderAPI->GetWorldSpaceCameraDirection( vEyeDir ); float flFarZ = pShaderAPI->GetFarZ(); vEyeDir[0] /= flFarZ; // Divide by farZ for SSAO algorithm vEyeDir[1] /= flFarZ; vEyeDir[2] /= flFarZ; DynamicCmdsOut.SetVertexShaderConstant4( 12, vEyeDir[0], vEyeDir[1], vEyeDir[2], 1.0f ); } MaterialFogMode_t fogType = pShaderAPI->GetSceneFogMode(); if( bDeferredActive ) { DECLARE_DYNAMIC_VERTEX_SHADER( lightmappedgeneric_deferred_vs30 ); SET_DYNAMIC_VERTEX_SHADER_COMBO( FASTPATH, bVertexShaderFastPath ); SET_DYNAMIC_VERTEX_SHADER_CMD( DynamicCmdsOut, lightmappedgeneric_deferred_vs30 ); } else { DECLARE_DYNAMIC_VERTEX_SHADER( lightmappedgeneric_vs30 ); SET_DYNAMIC_VERTEX_SHADER_COMBO( FASTPATH, bVertexShaderFastPath ); SET_DYNAMIC_VERTEX_SHADER_CMD( DynamicCmdsOut, lightmappedgeneric_vs30 ); } bool bPixelShaderFastPath = pContextData->m_bPixelShaderFastPath; if ( nFixedLightingMode != ENABLE_FIXED_LIGHTING_NONE ) { bPixelShaderFastPath = false; } bool bWriteDepthToAlpha; bool bWriteWaterFogToAlpha; if( pContextData->m_bFullyOpaque ) { bWriteDepthToAlpha = pShaderAPI->ShouldWriteDepthToDestAlpha(); bWriteWaterFogToAlpha = (fogType == MATERIAL_FOG_LINEAR_BELOW_FOG_Z); AssertMsg( !(bWriteDepthToAlpha && bWriteWaterFogToAlpha), "Can't write two values to alpha at the same time." ); } else { //can't write a special value to dest alpha if we're actually using as-intended alpha bWriteDepthToAlpha = false; bWriteWaterFogToAlpha = false; } if( bHasFoW ) { if( ( info.m_nFoW != -1 ) && ( params[ info.m_nFoW ]->IsTexture() != 0 ) ) DynamicCmdsOut.BindTexture( pShader, SHADER_SAMPLER13, info.m_nFoW, -1 ); else DynamicCmdsOut.BindStandardTexture( SHADER_SAMPLER13, TEXTURE_WHITE ); float vFoWSize[ 4 ]; Vector vMins = pShaderAPI->GetVectorRenderingParameter( VECTOR_RENDERPARM_GLOBAL_FOW_MINS ); Vector vMaxs = pShaderAPI->GetVectorRenderingParameter( VECTOR_RENDERPARM_GLOBAL_FOW_MAXS ); vFoWSize[ 0 ] = vMins.x; vFoWSize[ 1 ] = vMins.y; vFoWSize[ 2 ] = vMaxs.x - vMins.x; vFoWSize[ 3 ] = vMaxs.y - vMins.y; DynamicCmdsOut.SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_12, vFoWSize ); } if( bDeferredActive ) { DynamicCmdsOut.BindTexture( pShader, SHADER_SAMPLER14, GetDeferredExt()->GetTexture_LightAccum(), 0 ); DynamicCmdsOut.BindTexture( pShader, SHADER_SAMPLER15, GetDeferredExt()->GetTexture_LightAccum2(), 0 ); //DynamicCmdsOut.BindStandardTexture( SHADER_SAMPLER14, TEXTURE_WHITE ); int x, y, w, t; pShaderAPI->GetCurrentViewport( x, y, w, t ); float fl1[4] = { 1.0f / w, 1.0f / t, 0, 0 }; DynamicCmdsOut.SetPixelShaderConstant( PSREG_UBERLIGHT_SMOOTH_EDGE_0, fl1 ); } bool bFlashlightShadows = false; bool bUberlight = false; if( hasFlashlight && IsX360() ) { pShaderAPI->GetFlashlightShaderInfo( &bFlashlightShadows, &bUberlight ); } else { // only do ambient light when not using flashlight static ConVarRef mat_ambient_light_r_forced( "mat_ambient_light_r_forced" ); static ConVarRef mat_ambient_light_g_forced( "mat_ambient_light_g_forced" ); static ConVarRef mat_ambient_light_b_forced( "mat_ambient_light_b_forced" ); float vAmbientColor[4] = { mat_ambient_light_r_forced.GetFloat() != -1.0f ? mat_ambient_light_r_forced.GetFloat() : mat_ambient_light_r.GetFloat(), mat_ambient_light_g_forced.GetFloat() != -1.0f ? mat_ambient_light_g_forced.GetFloat() : mat_ambient_light_g.GetFloat(), mat_ambient_light_b_forced.GetFloat() != -1.0f ? mat_ambient_light_b_forced.GetFloat() : mat_ambient_light_b.GetFloat(), 0.0f }; if ( mat_fullbright.GetInt() == 1 ) { vAmbientColor[0] = vAmbientColor[1] = vAmbientColor[2] = 0.0f; } DynamicCmdsOut.SetPixelShaderConstant( 31, vAmbientColor, 1 ); } float envmapContrast = params[info.m_nEnvmapContrast]->GetFloatValue(); if( bDeferredActive ) { DECLARE_DYNAMIC_PIXEL_SHADER( lightmappedgeneric_deferred_ps30); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATH, bPixelShaderFastPath || pContextData->m_bPixelShaderForceFastPathBecauseOutline ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATHENVMAPCONTRAST, bPixelShaderFastPath && envmapContrast == 1.0f ); // Don't write fog to alpha if we're using translucency SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITE_DEPTH_TO_DESTALPHA, bWriteDepthToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITEWATERFOGTODESTALPHA, bWriteWaterFogToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FLASHLIGHTSHADOWS, /*bFlashlightShadows*/ 0 ); SET_DYNAMIC_PIXEL_SHADER_CMD( DynamicCmdsOut, lightmappedgeneric_deferred_ps30 ); } else { DECLARE_DYNAMIC_PIXEL_SHADER( lightmappedgeneric_ps30 ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATH, bPixelShaderFastPath || pContextData->m_bPixelShaderForceFastPathBecauseOutline ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FASTPATHENVMAPCONTRAST, bPixelShaderFastPath && envmapContrast == 1.0f ); // Don't write fog to alpha if we're using translucency SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITE_DEPTH_TO_DESTALPHA, bWriteDepthToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( WRITEWATERFOGTODESTALPHA, bWriteWaterFogToAlpha ); SET_DYNAMIC_PIXEL_SHADER_COMBO( FLASHLIGHTSHADOWS, bFlashlightShadows ); SET_DYNAMIC_PIXEL_SHADER_CMD( DynamicCmdsOut, lightmappedgeneric_ps30 ); } DynamicCmdsOut.End(); pShaderAPI->ExecuteCommandBuffer( DynamicCmdsOut.Base() ); } pShader->Draw(); if( !bDeferredActive && IsPC() && (IS_FLAG_SET( MATERIAL_VAR_ALPHATEST ) != 0) && pContextData->m_bFullyOpaqueWithoutAlphaTest ) { //Alpha testing makes it so we can't write to dest alpha //Writing to depth makes it so later polygons can't write to dest alpha either //This leads to situations with garbage in dest alpha. //Fix it now by converting depth to dest alpha for any pixels that just wrote. pShader->DrawEqualDepthToDestAlpha(); } }