//----------------------------------------------------------------------------- // Called when the texture is bound... //----------------------------------------------------------------------------- void CZZMaterialProxy::OnBind( C_BaseEntity *pEntity ) { if( !m_pTextureVar ) { return; } if(!m_pTextureVar->IsTexture()) // Make sure it is a texture return; //ITexture *pTexture = m_pTextureVar->GetTextureValue(); m_pTexture->Download(); // Mark it so it doesn't get regenerated on task switch //m_pEnt = NULL; }
IMaterial* CStudioRender::R_StudioSetupSkinAndLighting( IMatRenderContext *pRenderContext, int index, IMaterial **ppMaterials, int materialFlags, void /*IClientRenderable*/ *pClientRenderable, ColorMeshInfo_t *pColorMeshes, StudioModelLighting_t &lighting ) { VPROF( "R_StudioSetupSkin" ); IMaterial *pMaterial = NULL; bool bCheckForConVarDrawTranslucentSubModels = false; if( m_pRC->m_Config.bWireframe && !m_pRC->m_pForcedMaterial ) { if ( m_pRC->m_Config.bDrawZBufferedWireframe ) pMaterial = m_pMaterialMRMWireframeZBuffer; else pMaterial = m_pMaterialMRMWireframe; } else if( m_pRC->m_Config.bShowEnvCubemapOnly ) { pMaterial = m_pMaterialModelEnvCubemap; } else { if ( !m_pRC->m_pForcedMaterial && ( m_pRC->m_nForcedMaterialType != OVERRIDE_DEPTH_WRITE ) ) { pMaterial = ppMaterials[index]; if ( !pMaterial ) { Assert( 0 ); return 0; } } else { materialFlags = 0; pMaterial = m_pRC->m_pForcedMaterial; if (m_pRC->m_nForcedMaterialType == OVERRIDE_BUILD_SHADOWS) { // Connect the original material up to the shadow building material // Also bind the original material so its proxies are in the correct state static unsigned int translucentCache = 0; IMaterialVar* pOriginalMaterialVar = pMaterial->FindVarFast( "$translucent_material", &translucentCache ); Assert( pOriginalMaterialVar ); IMaterial *pOriginalMaterial = ppMaterials[index]; if ( pOriginalMaterial ) { // Disable any alpha modulation on the original material that was left over from when it was last rendered pOriginalMaterial->AlphaModulate( 1.0f ); pRenderContext->Bind( pOriginalMaterial, pClientRenderable ); if ( pOriginalMaterial->IsTranslucent() || pOriginalMaterial->IsAlphaTested() ) { pOriginalMaterialVar->SetMaterialValue( pOriginalMaterial ); } else { pOriginalMaterialVar->SetMaterialValue( NULL ); } } else { pOriginalMaterialVar->SetMaterialValue( NULL ); } } else if( m_pRC->m_nForcedMaterialType == OVERRIDE_DEPTH_WRITE ) { // Disable any alpha modulation on the original material that was left over from when it was last rendered ppMaterials[index]->AlphaModulate( 1.0f ); // Bail if the material is still considered translucent after setting the AlphaModulate to 1.0 if ( ppMaterials[index]->IsTranslucent() ) { return NULL; } static unsigned int originalTextureVarCache = 0; IMaterialVar *pOriginalTextureVar = ppMaterials[index]->FindVarFast( "$basetexture", &originalTextureVarCache ); // Select proper override material int nAlphaTest = (int) ( ppMaterials[index]->IsAlphaTested() && pOriginalTextureVar->IsTexture() ); // alpha tested base texture int nNoCull = (int) ppMaterials[index]->IsTwoSided(); pMaterial = m_pDepthWrite[nAlphaTest][nNoCull]; // If we're alpha tested, we should set up the texture variables from the original material if ( nAlphaTest != 0 ) { static unsigned int originalTextureFrameVarCache = 0; IMaterialVar *pOriginalTextureFrameVar = ppMaterials[index]->FindVarFast( "$frame", &originalTextureFrameVarCache ); static unsigned int originalAlphaRefCache = 0; IMaterialVar *pOriginalAlphaRefVar = ppMaterials[index]->FindVarFast( "$AlphaTestReference", &originalAlphaRefCache ); static unsigned int textureVarCache = 0; IMaterialVar *pTextureVar = pMaterial->FindVarFast( "$basetexture", &textureVarCache ); static unsigned int textureFrameVarCache = 0; IMaterialVar *pTextureFrameVar = pMaterial->FindVarFast( "$frame", &textureFrameVarCache ); static unsigned int alphaRefCache = 0; IMaterialVar *pAlphaRefVar = pMaterial->FindVarFast( "$AlphaTestReference", &alphaRefCache ); if ( pOriginalTextureVar->IsTexture() ) // If $basetexture is defined { if( pTextureVar && pOriginalTextureVar ) { pTextureVar->SetTextureValue( pOriginalTextureVar->GetTextureValue() ); } if( pTextureFrameVar && pOriginalTextureFrameVar ) { pTextureFrameVar->SetIntValue( pOriginalTextureFrameVar->GetIntValue() ); } if( pAlphaRefVar && pOriginalAlphaRefVar ) { pAlphaRefVar->SetFloatValue( pOriginalAlphaRefVar->GetFloatValue() ); } } } } } // Set this bool to check after the bind below bCheckForConVarDrawTranslucentSubModels = true; if ( m_pRC->m_nForcedMaterialType != OVERRIDE_DEPTH_WRITE ) { // Try to set the alpha based on the blend pMaterial->AlphaModulate( m_pRC->m_AlphaMod ); // Try to set the color based on the colormod pMaterial->ColorModulate( m_pRC->m_ColorMod[0], m_pRC->m_ColorMod[1], m_pRC->m_ColorMod[2] ); } } lighting = R_StudioComputeLighting( pMaterial, materialFlags, pColorMeshes ); if ( lighting == LIGHTING_MOUTH ) { if ( !m_pRC->m_Config.bTeeth || !R_TeethAreVisible() ) return NULL; // skin it and light it, but only if we need to. if ( m_pRC->m_Config.m_bSupportsVertexAndPixelShaders ) { R_MouthSetupVertexShader( pMaterial ); } } pRenderContext->Bind( pMaterial, pClientRenderable ); if ( bCheckForConVarDrawTranslucentSubModels ) { bool translucent = pMaterial->IsTranslucent(); if (( m_bDrawTranslucentSubModels && !translucent ) || ( !m_bDrawTranslucentSubModels && translucent )) { m_bSkippedMeshes = true; return NULL; } } return pMaterial; }