//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: Responsible for drawing the scene // //===========================================================================// #include "cbase.h" #include "view.h" #include "iviewrender.h" #include "view_shared.h" #include "ivieweffects.h" #include "iinput.h" #include "model_types.h" #include "clientsideeffects.h" #include "particlemgr.h" #include "viewrender.h" #include "iclientmode.h" #include "voice_status.h" #include "glow_overlay.h" #include "materialsystem/imesh.h" #include "materialsystem/itexture.h" #include "materialsystem/imaterial.h" #include "materialsystem/imaterialvar.h" #include "materialsystem/imaterialsystem.h" #include "detailobjectsystem.h" #include "tier0/vprof.h" #include "tier1/mempool.h" #include "vstdlib/jobthread.h" #include "datacache/imdlcache.h" #include "engine/IEngineTrace.h" #include "engine/ivmodelinfo.h" #include "tier0/icommandline.h" #include "view_scene.h" #include "particles_ez.h" #include "engine/IStaticPropMgr.h" #include "engine/ivdebugoverlay.h" #include "c_pixel_visibility.h" #include "clienteffectprecachesystem.h" #include "c_rope.h" #include "c_effects.h" #include "smoke_fog_overlay.h" #include "materialsystem/imaterialsystemhardwareconfig.h" #include "VGuiMatSurface/IMatSystemSurface.h" #include "vgui_int.h" #include "ienginevgui.h" #include "ScreenSpaceEffects.h" #include "toolframework_client.h" #include "c_func_reflective_glass.h" #include "KeyValues.h" #include "renderparm.h" #include "studio_stats.h" #include "con_nprint.h" #include "clientmode_shared.h" #include "sourcevr/isourcevirtualreality.h" #include "client_virtualreality.h" #ifdef PORTAL //#include "C_Portal_Player.h" #include "portal_render_targets.h" #include "PortalRender.h" #endif #if defined( HL2_CLIENT_DLL ) || defined( CSTRIKE_DLL ) #define USE_MONITORS #endif #include "rendertexture.h" #include "viewpostprocess.h" #include "viewdebug.h" #if defined USES_ECON_ITEMS #include "econ_wearable.h" #endif #ifdef USE_MONITORS #include "c_point_camera.h" #endif // USE_MONITORS // Projective textures #include "C_Env_Projected_Texture.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" static void testfreezeframe_f( void ) { view->FreezeFrame( 3.0 ); } static ConCommand test_freezeframe( "test_freezeframe", testfreezeframe_f, "Test the freeze frame code.", FCVAR_CHEAT ); //----------------------------------------------------------------------------- static ConVar r_visocclusion( "r_visocclusion", "0", FCVAR_CHEAT ); extern ConVar r_flashlightdepthtexture; extern ConVar vcollide_wireframe; extern ConVar r_depthoverlay; extern ConVar mat_viewportscale; extern ConVar mat_viewportupscale; extern bool g_bDumpRenderTargets; //----------------------------------------------------------------------------- // Convars related to controlling rendering //----------------------------------------------------------------------------- static ConVar cl_maxrenderable_dist("cl_maxrenderable_dist", "3000", FCVAR_CHEAT, "Max distance from the camera at which things will be rendered" ); ConVar r_entityclips( "r_entityclips", "1" ); //FIXME: Nvidia drivers before 81.94 on cards that support user clip planes will have problems with this, require driver update? Detect and disable? // Matches the version in the engine static ConVar r_drawopaqueworld( "r_drawopaqueworld", "1", FCVAR_CHEAT ); static ConVar r_drawtranslucentworld( "r_drawtranslucentworld", "1", FCVAR_CHEAT ); static ConVar r_3dsky( "r_3dsky","1", 0, "Enable the rendering of 3d sky boxes" ); static ConVar r_skybox( "r_skybox","1", FCVAR_CHEAT, "Enable the rendering of sky boxes" ); #ifdef TF_CLIENT_DLL ConVar r_drawviewmodel( "r_drawviewmodel","1", FCVAR_DONTRECORD ); #else ConVar r_drawviewmodel( "r_drawviewmodel","1", FCVAR_CHEAT ); #endif static ConVar r_drawtranslucentrenderables( "r_drawtranslucentrenderables", "1", FCVAR_CHEAT ); static ConVar r_drawopaquerenderables( "r_drawopaquerenderables", "1", FCVAR_CHEAT ); static ConVar r_threaded_renderables( "r_threaded_renderables", "0" ); // FIXME: This is not static because we needed to turn it off for TF2 playtests ConVar r_DrawDetailProps( "r_DrawDetailProps", "1", FCVAR_NONE, "0=Off, 1=Normal, 2=Wireframe" ); ConVar r_worldlistcache( "r_worldlistcache", "1" ); //----------------------------------------------------------------------------- // Convars related to fog color //----------------------------------------------------------------------------- static ConVar fog_override( "fog_override", "0", FCVAR_CHEAT ); // set any of these to use the maps fog static ConVar fog_start( "fog_start", "-1", FCVAR_CHEAT ); static ConVar fog_end( "fog_end", "-1", FCVAR_CHEAT ); static ConVar fog_color( "fog_color", "-1 -1 -1", FCVAR_CHEAT ); static ConVar fog_enable( "fog_enable", "1", FCVAR_CHEAT ); static ConVar fog_startskybox( "fog_startskybox", "-1", FCVAR_CHEAT ); static ConVar fog_endskybox( "fog_endskybox", "-1", FCVAR_CHEAT ); static ConVar fog_maxdensityskybox( "fog_maxdensityskybox", "-1", FCVAR_CHEAT ); static ConVar fog_colorskybox( "fog_colorskybox", "-1 -1 -1", FCVAR_CHEAT ); static ConVar fog_enableskybox( "fog_enableskybox", "1", FCVAR_CHEAT ); static ConVar fog_maxdensity( "fog_maxdensity", "-1", FCVAR_CHEAT ); //----------------------------------------------------------------------------- // Water-related convars //----------------------------------------------------------------------------- static ConVar r_debugcheapwater( "r_debugcheapwater", "0", FCVAR_CHEAT ); #ifndef _X360 static ConVar r_waterforceexpensive( "r_waterforceexpensive", "0", FCVAR_ARCHIVE ); #endif static ConVar r_waterforcereflectentities( "r_waterforcereflectentities", "0", FCVAR_ALLOWED_IN_COMPETITIVE ); static ConVar r_WaterDrawRefraction( "r_WaterDrawRefraction", "1", 0, "Enable water refraction" ); static ConVar r_WaterDrawReflection( "r_WaterDrawReflection", "1", 0, "Enable water reflection" ); static ConVar r_ForceWaterLeaf( "r_ForceWaterLeaf", "1", 0, "Enable for optimization to water - considers view in leaf under water for purposes of culling" ); static ConVar mat_drawwater( "mat_drawwater", "1", FCVAR_CHEAT ); static ConVar mat_clipz( "mat_clipz", "1" ); //----------------------------------------------------------------------------- // Other convars //----------------------------------------------------------------------------- static ConVar r_screenfademinsize( "r_screenfademinsize", "0" ); static ConVar r_screenfademaxsize( "r_screenfademaxsize", "0" ); static ConVar cl_drawmonitors( "cl_drawmonitors", "1" ); static ConVar r_eyewaterepsilon( "r_eyewaterepsilon", "10.0f", FCVAR_CHEAT ); #ifdef TF_CLIENT_DLL static ConVar pyro_dof( "pyro_dof", "1", FCVAR_ARCHIVE ); #endif extern ConVar cl_leveloverview; extern ConVar localplayer_visionflags; //----------------------------------------------------------------------------- // Globals //----------------------------------------------------------------------------- static Vector g_vecCurrentRenderOrigin(0,0,0); static QAngle g_vecCurrentRenderAngles(0,0,0); static Vector g_vecCurrentVForward(0,0,0), g_vecCurrentVRight(0,0,0), g_vecCurrentVUp(0,0,0); static VMatrix g_matCurrentCamInverse; bool s_bCanAccessCurrentView = false; IntroData_t *g_pIntroData = NULL; static bool g_bRenderingView = false; // For debugging... static int g_CurrentViewID = VIEW_NONE; bool g_bRenderingScreenshot = false; #define FREEZECAM_SNAPSHOT_FADE_SPEED 340 float g_flFreezeFlash = 0.0f; //----------------------------------------------------------------------------- CON_COMMAND( r_cheapwaterstart, "" ) { if( args.ArgC() == 2 ) { float dist = atof( args[ 1 ] ); view->SetCheapWaterStartDistance( dist ); } else { float start, end; view->GetWaterLODParams( start, end ); Warning( "r_cheapwaterstart: %f\n", start ); } } CON_COMMAND( r_cheapwaterend, "" ) { if( args.ArgC() == 2 ) { float dist = atof( args[ 1 ] ); view->SetCheapWaterEndDistance( dist ); } else { float start, end; view->GetWaterLODParams( start, end ); Warning( "r_cheapwaterend: %f\n", end ); } } //----------------------------------------------------------------------------- // Describes a pruned set of leaves to be rendered this view. Reference counted // because potentially shared by a number of views //----------------------------------------------------------------------------- struct ClientWorldListInfo_t : public CRefCounted1 { ClientWorldListInfo_t() { memset( (WorldListInfo_t *)this, 0, sizeof(WorldListInfo_t) ); m_pActualLeafIndex = NULL; m_bPooledAlloc = false; } // Allocate a list intended for pruning static ClientWorldListInfo_t *AllocPooled( const ClientWorldListInfo_t &exemplar ); // Because we remap leaves to eliminate unused leaves, we need a remap // when drawing translucent surfaces, which requires the *original* leaf index // using m_pActualLeafMap[ remapped leaf index ] == actual leaf index LeafIndex_t *m_pActualLeafIndex; private: virtual bool OnFinalRelease(); bool m_bPooledAlloc; static CObjectPool gm_Pool; }; //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- class CWorldListCache { public: CWorldListCache() { } void Flush() { for ( int i = m_Entries.FirstInorder(); i != m_Entries.InvalidIndex(); i = m_Entries.NextInorder( i ) ) { delete m_Entries[i]; } m_Entries.RemoveAll(); } bool Find( const CViewSetup &viewSetup, IWorldRenderList **ppList, ClientWorldListInfo_t **ppListInfo ) { Entry_t lookup( viewSetup ); int i = m_Entries.Find( &lookup ); if ( i != m_Entries.InvalidIndex() ) { Entry_t *pEntry = m_Entries[i]; *ppList = InlineAddRef( pEntry->pList ); *ppListInfo = InlineAddRef( pEntry->pListInfo ); return true; } return false; } void Add( const CViewSetup &viewSetup, IWorldRenderList *pList, ClientWorldListInfo_t *pListInfo ) { m_Entries.Insert( new Entry_t( viewSetup, pList, pListInfo ) ); } private: struct Entry_t { Entry_t( const CViewSetup &viewSetup, IWorldRenderList *pList = NULL, ClientWorldListInfo_t *pListInfo = NULL ) : pList( ( pList ) ? InlineAddRef( pList ) : NULL ), pListInfo( ( pListInfo ) ? InlineAddRef( pListInfo ) : NULL ) { // @NOTE (toml 8/18/2006): because doing memcmp, need to fill all of the fields and the padding! memset( &m_bOrtho, 0, offsetof(Entry_t, pList ) - offsetof(Entry_t, m_bOrtho ) ); m_bOrtho = viewSetup.m_bOrtho; m_OrthoLeft = viewSetup.m_OrthoLeft; m_OrthoTop = viewSetup.m_OrthoTop; m_OrthoRight = viewSetup.m_OrthoRight; m_OrthoBottom = viewSetup.m_OrthoBottom; fov = viewSetup.fov; origin = viewSetup.origin; angles = viewSetup.angles; zNear = viewSetup.zNear; zFar = viewSetup.zFar; m_flAspectRatio = viewSetup.m_flAspectRatio; m_bOffCenter = viewSetup.m_bOffCenter; m_flOffCenterTop = viewSetup.m_flOffCenterTop; m_flOffCenterBottom = viewSetup.m_flOffCenterBottom; m_flOffCenterLeft = viewSetup.m_flOffCenterLeft; m_flOffCenterRight = viewSetup.m_flOffCenterRight; } ~Entry_t() { if ( pList ) pList->Release(); if ( pListInfo ) pListInfo->Release(); } // The fields from CViewSetup that would actually affect the list float m_OrthoLeft; float m_OrthoTop; float m_OrthoRight; float m_OrthoBottom; float fov; Vector origin; QAngle angles; float zNear; float zFar; float m_flAspectRatio; float m_flOffCenterTop; float m_flOffCenterBottom; float m_flOffCenterLeft; float m_flOffCenterRight; bool m_bOrtho; bool m_bOffCenter; IWorldRenderList *pList; ClientWorldListInfo_t *pListInfo; }; class CEntryComparator { public: CEntryComparator( int ) {} bool operator!() const { return false; } bool operator()( const Entry_t *lhs, const Entry_t *rhs ) const { return ( memcmp( lhs, rhs, sizeof(Entry_t) - ( sizeof(Entry_t) - offsetof(Entry_t, pList ) ) ) < 0 ); } }; CUtlRBTree m_Entries; }; CWorldListCache g_WorldListCache; //----------------------------------------------------------------------------- // Standard 3d skybox view //----------------------------------------------------------------------------- class CSkyboxView : public CRendering3dView { DECLARE_CLASS( CSkyboxView, CRendering3dView ); public: CSkyboxView(CViewRender *pMainView) : CRendering3dView( pMainView ), m_pSky3dParams( NULL ) { } bool Setup( const CViewSetup &view, int *pClearFlags, SkyboxVisibility_t *pSkyboxVisible ); void Draw(); protected: #ifdef PORTAL virtual bool ShouldDrawPortals() { return false; } #endif virtual SkyboxVisibility_t ComputeSkyboxVisibility(); bool GetSkyboxFogEnable(); void Enable3dSkyboxFog( void ); void DrawInternal( view_id_t iSkyBoxViewID, bool bInvokePreAndPostRender, ITexture *pRenderTarget, ITexture *pDepthTarget ); sky3dparams_t * PreRender3dSkyboxWorld( SkyboxVisibility_t nSkyboxVisible ); sky3dparams_t *m_pSky3dParams; }; //----------------------------------------------------------------------------- // 3d skybox view when drawing portals //----------------------------------------------------------------------------- #ifdef PORTAL class CPortalSkyboxView : public CSkyboxView { DECLARE_CLASS( CPortalSkyboxView, CSkyboxView ); public: CPortalSkyboxView(CViewRender *pMainView) : CSkyboxView( pMainView ), m_pRenderTarget( NULL ) {} bool Setup( const CViewSetup &view, int *pClearFlags, SkyboxVisibility_t *pSkyboxVisible, ITexture *pRenderTarget = NULL ); //Skybox drawing through portals with workarounds to fix area bits, position/scaling, view id's.......... void Draw(); private: virtual SkyboxVisibility_t ComputeSkyboxVisibility(); ITexture *m_pRenderTarget; }; #endif //----------------------------------------------------------------------------- // Shadow depth texture //----------------------------------------------------------------------------- class CShadowDepthView : public CRendering3dView { DECLARE_CLASS( CShadowDepthView, CRendering3dView ); public: CShadowDepthView(CViewRender *pMainView) : CRendering3dView( pMainView ) {} void Setup( const CViewSetup &shadowViewIn, ITexture *pRenderTarget, ITexture *pDepthTexture ); void Draw(); private: ITexture *m_pRenderTarget; ITexture *m_pDepthTexture; }; //----------------------------------------------------------------------------- // Freeze frame. Redraws the frame at which it was enabled. //----------------------------------------------------------------------------- class CFreezeFrameView : public CRendering3dView { DECLARE_CLASS( CFreezeFrameView, CRendering3dView ); public: CFreezeFrameView(CViewRender *pMainView) : CRendering3dView( pMainView ) {} void Setup( const CViewSetup &view ); void Draw(); private: CMaterialReference m_pFreezeFrame; CMaterialReference m_TranslucentSingleColor; }; //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- class CBaseWorldView : public CRendering3dView { DECLARE_CLASS( CBaseWorldView, CRendering3dView ); protected: CBaseWorldView(CViewRender *pMainView) : CRendering3dView( pMainView ) {} virtual bool AdjustView( float waterHeight ); void DrawSetup( float waterHeight, int flags, float waterZAdjust, int iForceViewLeaf = -1 ); void DrawExecute( float waterHeight, view_id_t viewID, float waterZAdjust ); virtual void PushView( float waterHeight ); virtual void PopView(); void SSAO_DepthPass(); void DrawDepthOfField(); }; //----------------------------------------------------------------------------- // Draws the scene when there's no water or only cheap water //----------------------------------------------------------------------------- class CSimpleWorldView : public CBaseWorldView { DECLARE_CLASS( CSimpleWorldView, CBaseWorldView ); public: CSimpleWorldView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup( const CViewSetup &view, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t& info, ViewCustomVisibility_t *pCustomVisibility = NULL ); void Draw(); private: VisibleFogVolumeInfo_t m_fogInfo; }; //----------------------------------------------------------------------------- // Base class for scenes with water //----------------------------------------------------------------------------- class CBaseWaterView : public CBaseWorldView { DECLARE_CLASS( CBaseWaterView, CBaseWorldView ); public: CBaseWaterView(CViewRender *pMainView) : CBaseWorldView( pMainView ), m_SoftwareIntersectionView( pMainView ) {} // void Setup( const CViewSetup &, const WaterRenderInfo_t& info ); protected: void CalcWaterEyeAdjustments( const VisibleFogVolumeInfo_t &fogInfo, float &newWaterHeight, float &waterZAdjust, bool bSoftwareUserClipPlane ); class CSoftwareIntersectionView : public CBaseWorldView { DECLARE_CLASS( CSoftwareIntersectionView, CBaseWorldView ); public: CSoftwareIntersectionView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup( bool bAboveWater ); void Draw(); private: CBaseWaterView *GetOuter() { return GET_OUTER( CBaseWaterView, m_SoftwareIntersectionView ); } }; friend class CSoftwareIntersectionView; CSoftwareIntersectionView m_SoftwareIntersectionView; WaterRenderInfo_t m_waterInfo; float m_waterHeight; float m_waterZAdjust; bool m_bSoftwareUserClipPlane; VisibleFogVolumeInfo_t m_fogInfo; }; //----------------------------------------------------------------------------- // Scenes above water //----------------------------------------------------------------------------- class CAboveWaterView : public CBaseWaterView { DECLARE_CLASS( CAboveWaterView, CBaseWaterView ); public: CAboveWaterView(CViewRender *pMainView) : CBaseWaterView( pMainView ), m_ReflectionView( pMainView ), m_RefractionView( pMainView ), m_IntersectionView( pMainView ) {} void Setup( const CViewSetup &view, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t& waterInfo ); void Draw(); class CReflectionView : public CBaseWorldView { DECLARE_CLASS( CReflectionView, CBaseWorldView ); public: CReflectionView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup( bool bReflectEntities ); void Draw(); private: CAboveWaterView *GetOuter() { return GET_OUTER( CAboveWaterView, m_ReflectionView ); } }; class CRefractionView : public CBaseWorldView { DECLARE_CLASS( CRefractionView, CBaseWorldView ); public: CRefractionView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup(); void Draw(); private: CAboveWaterView *GetOuter() { return GET_OUTER( CAboveWaterView, m_RefractionView ); } }; class CIntersectionView : public CBaseWorldView { DECLARE_CLASS( CIntersectionView, CBaseWorldView ); public: CIntersectionView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup(); void Draw(); private: CAboveWaterView *GetOuter() { return GET_OUTER( CAboveWaterView, m_IntersectionView ); } }; friend class CRefractionView; friend class CReflectionView; friend class CIntersectionView; bool m_bViewIntersectsWater; CReflectionView m_ReflectionView; CRefractionView m_RefractionView; CIntersectionView m_IntersectionView; }; //----------------------------------------------------------------------------- // Scenes below water //----------------------------------------------------------------------------- class CUnderWaterView : public CBaseWaterView { DECLARE_CLASS( CUnderWaterView, CBaseWaterView ); public: CUnderWaterView(CViewRender *pMainView) : CBaseWaterView( pMainView ), m_RefractionView( pMainView ) {} void Setup( const CViewSetup &view, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t& info ); void Draw(); class CRefractionView : public CBaseWorldView { DECLARE_CLASS( CRefractionView, CBaseWorldView ); public: CRefractionView(CViewRender *pMainView) : CBaseWorldView( pMainView ) {} void Setup(); void Draw(); private: CUnderWaterView *GetOuter() { return GET_OUTER( CUnderWaterView, m_RefractionView ); } }; friend class CRefractionView; bool m_bDrawSkybox; // @MULTICORE (toml 8/17/2006): remove after setup hoisted CRefractionView m_RefractionView; }; //----------------------------------------------------------------------------- // Scenes containing reflective glass //----------------------------------------------------------------------------- class CReflectiveGlassView : public CSimpleWorldView { DECLARE_CLASS( CReflectiveGlassView, CSimpleWorldView ); public: CReflectiveGlassView( CViewRender *pMainView ) : BaseClass( pMainView ) { } virtual bool AdjustView( float flWaterHeight ); virtual void PushView( float waterHeight ); virtual void PopView( ); void Setup( const CViewSetup &view, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t &waterInfo, const cplane_t &reflectionPlane ); void Draw(); cplane_t m_ReflectionPlane; }; class CRefractiveGlassView : public CSimpleWorldView { DECLARE_CLASS( CRefractiveGlassView, CSimpleWorldView ); public: CRefractiveGlassView( CViewRender *pMainView ) : BaseClass( pMainView ) { } virtual bool AdjustView( float flWaterHeight ); virtual void PushView( float waterHeight ); virtual void PopView( ); void Setup( const CViewSetup &view, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t &waterInfo, const cplane_t &reflectionPlane ); void Draw(); cplane_t m_ReflectionPlane; }; //----------------------------------------------------------------------------- // Computes draw flags for the engine to build its world surface lists //----------------------------------------------------------------------------- static inline unsigned long BuildEngineDrawWorldListFlags( unsigned nDrawFlags ) { unsigned long nEngineFlags = 0; if ( nDrawFlags & DF_DRAWSKYBOX ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_SKYBOX; } if ( nDrawFlags & DF_RENDER_ABOVEWATER ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_STRICTLYABOVEWATER; nEngineFlags |= DRAWWORLDLISTS_DRAW_INTERSECTSWATER; } if ( nDrawFlags & DF_RENDER_UNDERWATER ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_STRICTLYUNDERWATER; nEngineFlags |= DRAWWORLDLISTS_DRAW_INTERSECTSWATER; } if ( nDrawFlags & DF_RENDER_WATER ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_WATERSURFACE; } if( nDrawFlags & DF_CLIP_SKYBOX ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_CLIPSKYBOX; } if( nDrawFlags & DF_SHADOW_DEPTH_MAP ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_SHADOWDEPTH; } if( nDrawFlags & DF_RENDER_REFRACTION ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_REFRACTION; } if( nDrawFlags & DF_RENDER_REFLECTION ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_REFLECTION; } if( nDrawFlags & DF_SSAO_DEPTH_PASS ) { nEngineFlags |= DRAWWORLDLISTS_DRAW_SSAO | DRAWWORLDLISTS_DRAW_STRICTLYUNDERWATER | DRAWWORLDLISTS_DRAW_INTERSECTSWATER | DRAWWORLDLISTS_DRAW_STRICTLYABOVEWATER ; nEngineFlags &= ~( DRAWWORLDLISTS_DRAW_WATERSURFACE | DRAWWORLDLISTS_DRAW_REFRACTION | DRAWWORLDLISTS_DRAW_REFLECTION ); } return nEngineFlags; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- static void SetClearColorToFogColor() { unsigned char ucFogColor[3]; CMatRenderContextPtr pRenderContext( materials ); pRenderContext->GetFogColor( ucFogColor ); if( g_pMaterialSystemHardwareConfig->GetHDRType() == HDR_TYPE_INTEGER ) { // @MULTICORE (toml 8/16/2006): Find a way to not do this twice in eye above water case float scale = LinearToGammaFullRange( pRenderContext->GetToneMappingScaleLinear().x ); ucFogColor[0] *= scale; ucFogColor[1] *= scale; ucFogColor[2] *= scale; } pRenderContext->ClearColor4ub( ucFogColor[0], ucFogColor[1], ucFogColor[2], 255 ); } //----------------------------------------------------------------------------- // Precache of necessary materials //----------------------------------------------------------------------------- #ifdef HL2_CLIENT_DLL CLIENTEFFECT_REGISTER_BEGIN( PrecacheViewRender ) CLIENTEFFECT_MATERIAL( "scripted/intro_screenspaceeffect" ) CLIENTEFFECT_REGISTER_END() #endif CLIENTEFFECT_REGISTER_BEGIN( PrecachePostProcessingEffects ) CLIENTEFFECT_MATERIAL( "dev/blurfiltery_and_add_nohdr" ) CLIENTEFFECT_MATERIAL( "dev/blurfilterx" ) CLIENTEFFECT_MATERIAL( "dev/blurfilterx_nohdr" ) CLIENTEFFECT_MATERIAL( "dev/blurfiltery" ) CLIENTEFFECT_MATERIAL( "dev/blurfiltery_nohdr" ) CLIENTEFFECT_MATERIAL( "dev/bloomadd" ) CLIENTEFFECT_MATERIAL( "dev/downsample" ) #ifdef CSTRIKE_DLL CLIENTEFFECT_MATERIAL( "dev/downsample_non_hdr_cstrike" ) #else CLIENTEFFECT_MATERIAL( "dev/downsample_non_hdr" ) #endif CLIENTEFFECT_MATERIAL( "dev/no_pixel_write" ) CLIENTEFFECT_MATERIAL( "dev/lumcompare" ) CLIENTEFFECT_MATERIAL( "dev/floattoscreen_combine" ) CLIENTEFFECT_MATERIAL( "dev/copyfullframefb_vanilla" ) CLIENTEFFECT_MATERIAL( "dev/copyfullframefb" ) CLIENTEFFECT_MATERIAL( "dev/engine_post" ) CLIENTEFFECT_MATERIAL( "dev/motion_blur" ) CLIENTEFFECT_MATERIAL( "dev/upscale" ) #ifdef TF_CLIENT_DLL CLIENTEFFECT_MATERIAL( "dev/pyro_blur_filter_y" ) CLIENTEFFECT_MATERIAL( "dev/pyro_blur_filter_x" ) CLIENTEFFECT_MATERIAL( "dev/pyro_dof" ) CLIENTEFFECT_MATERIAL( "dev/pyro_vignette_border" ) CLIENTEFFECT_MATERIAL( "dev/pyro_vignette" ) CLIENTEFFECT_MATERIAL( "dev/pyro_post" ) #endif CLIENTEFFECT_REGISTER_END_CONDITIONAL( engine->GetDXSupportLevel() >= 90 ) //----------------------------------------------------------------------------- // Accessors to return the current view being rendered //----------------------------------------------------------------------------- const Vector &CurrentViewOrigin() { Assert( s_bCanAccessCurrentView ); return g_vecCurrentRenderOrigin; } const QAngle &CurrentViewAngles() { Assert( s_bCanAccessCurrentView ); return g_vecCurrentRenderAngles; } const Vector &CurrentViewForward() { Assert( s_bCanAccessCurrentView ); return g_vecCurrentVForward; } const Vector &CurrentViewRight() { Assert( s_bCanAccessCurrentView ); return g_vecCurrentVRight; } const Vector &CurrentViewUp() { Assert( s_bCanAccessCurrentView ); return g_vecCurrentVUp; } const VMatrix &CurrentWorldToViewMatrix() { Assert( s_bCanAccessCurrentView ); return g_matCurrentCamInverse; } //----------------------------------------------------------------------------- // Methods to set the current view/guard access to view parameters //----------------------------------------------------------------------------- void AllowCurrentViewAccess( bool allow ) { s_bCanAccessCurrentView = allow; } bool IsCurrentViewAccessAllowed() { return s_bCanAccessCurrentView; } void SetupCurrentView( const Vector &vecOrigin, const QAngle &angles, view_id_t viewID ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // Store off view origin and angles g_vecCurrentRenderOrigin = vecOrigin; g_vecCurrentRenderAngles = angles; // Compute the world->main camera transform ComputeCameraVariables( vecOrigin, angles, &g_vecCurrentVForward, &g_vecCurrentVRight, &g_vecCurrentVUp, &g_matCurrentCamInverse ); g_CurrentViewID = viewID; s_bCanAccessCurrentView = true; // Cache off fade distances float flScreenFadeMinSize, flScreenFadeMaxSize; view->GetScreenFadeDistances( &flScreenFadeMinSize, &flScreenFadeMaxSize ); modelinfo->SetViewScreenFadeRange( flScreenFadeMinSize, flScreenFadeMaxSize ); CMatRenderContextPtr pRenderContext( materials ); #ifdef PORTAL if ( g_pPortalRender->GetViewRecursionLevel() == 0 ) { pRenderContext->SetIntRenderingParameter( INT_RENDERPARM_WRITE_DEPTH_TO_DESTALPHA, ((viewID == VIEW_MAIN) || (viewID == VIEW_3DSKY)) ? 1 : 0 ); } #else pRenderContext->SetIntRenderingParameter( INT_RENDERPARM_WRITE_DEPTH_TO_DESTALPHA, ((viewID == VIEW_MAIN) || (viewID == VIEW_3DSKY)) ? 1 : 0 ); #endif } view_id_t CurrentViewID() { Assert( g_CurrentViewID != VIEW_ILLEGAL ); return ( view_id_t )g_CurrentViewID; } //----------------------------------------------------------------------------- // Purpose: Portal views are considered 'Main' views. This function tests a view id // against all view ids used by portal renderables, as well as the main view. //----------------------------------------------------------------------------- bool IsMainView ( view_id_t id ) { #if defined(PORTAL) return ( (id == VIEW_MAIN) || g_pPortalRender->IsPortalViewID( id ) ); #else return (id == VIEW_MAIN); #endif } void FinishCurrentView() { s_bCanAccessCurrentView = false; } //----------------------------------------------------------------------------- // Constructor //----------------------------------------------------------------------------- void CSimpleRenderExecutor::AddView( CRendering3dView *pView ) { CBase3dView *pPrevRenderer = m_pMainView->SetActiveRenderer( pView ); pView->Draw(); m_pMainView->SetActiveRenderer( pPrevRenderer ); } //----------------------------------------------------------------------------- // Constructor //----------------------------------------------------------------------------- CViewRender::CViewRender() : m_SimpleExecutor( this ) { m_flCheapWaterStartDistance = 0.0f; m_flCheapWaterEndDistance = 0.1f; m_BaseDrawFlags = 0; m_pActiveRenderer = NULL; m_pCurrentlyDrawingEntity = NULL; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- inline bool CViewRender::ShouldDrawEntities( void ) { return ( !m_pDrawEntities || (m_pDrawEntities->GetInt() != 0) ); } //----------------------------------------------------------------------------- // Purpose: Check all conditions which would prevent drawing the view model // Input : drawViewmodel - // *viewmodel - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CViewRender::ShouldDrawViewModel( bool bDrawViewmodel ) { if ( !bDrawViewmodel ) return false; if ( !r_drawviewmodel.GetBool() ) return false; if ( C_BasePlayer::ShouldDrawLocalPlayer() ) return false; if ( !ShouldDrawEntities() ) return false; if ( render->GetViewEntity() > gpGlobals->maxClients ) return false; return true; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CViewRender::UpdateRefractIfNeededByList( CUtlVector< IClientRenderable * > &list ) { int nCount = list.Count(); for( int i=0; i < nCount; ++i ) { IClientUnknown *pUnk = list[i]->GetIClientUnknown(); Assert( pUnk ); IClientRenderable *pRenderable = pUnk->GetClientRenderable(); Assert( pRenderable ); if ( pRenderable->UsesPowerOfTwoFrameBufferTexture() ) { UpdateRefractTexture(); return true; } } return false; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CViewRender::DrawRenderablesInList( CUtlVector< IClientRenderable * > &list, int flags ) { Assert( m_pCurrentlyDrawingEntity == NULL ); int nCount = list.Count(); for( int i=0; i < nCount; ++i ) { IClientUnknown *pUnk = list[i]->GetIClientUnknown(); Assert( pUnk ); IClientRenderable *pRenderable = pUnk->GetClientRenderable(); Assert( pRenderable ); // Non-view models wanting to render in view model list... if ( pRenderable->ShouldDraw() ) { m_pCurrentlyDrawingEntity = pUnk->GetBaseEntity(); pRenderable->DrawModel( STUDIO_RENDER | flags ); } } m_pCurrentlyDrawingEntity = NULL; } //----------------------------------------------------------------------------- // Purpose: Actually draw the view model // Input : drawViewModel - //----------------------------------------------------------------------------- void CViewRender::DrawViewModels( const CViewSetup &viewRender, bool drawViewmodel ) { VPROF( "CViewRender::DrawViewModel" ); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); #ifdef PORTAL //in portal, we'd like a copy of the front buffer without the gun in it for use with the depth doubler g_pPortalRender->UpdateDepthDoublerTexture( viewRender ); #endif bool bShouldDrawPlayerViewModel = ShouldDrawViewModel( drawViewmodel ); bool bShouldDrawToolViewModels = ToolsEnabled(); CMatRenderContextPtr pRenderContext( materials ); PIXEVENT( pRenderContext, "DrawViewModels" ); // Restore the matrices pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PushMatrix(); CViewSetup viewModelSetup( viewRender ); viewModelSetup.zNear = viewRender.zNearViewmodel; viewModelSetup.zFar = viewRender.zFarViewmodel; viewModelSetup.fov = viewRender.fovViewmodel; viewModelSetup.m_flAspectRatio = engine->GetScreenAspectRatio(); ITexture *pRTColor = NULL; ITexture *pRTDepth = NULL; if( viewRender.m_eStereoEye != STEREO_EYE_MONO ) { pRTColor = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(viewRender.m_eStereoEye-1), ISourceVirtualReality::RT_Color ); pRTDepth = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(viewRender.m_eStereoEye-1), ISourceVirtualReality::RT_Depth ); } render->Push3DView( viewModelSetup, 0, pRTColor, GetFrustum(), pRTDepth ); #ifdef PORTAL //the depth range hack doesn't work well enough for the portal mod (and messing with the depth hack values makes some models draw incorrectly) //step up to a full depth clear if we're extremely close to a portal (in a portal environment) extern bool LocalPlayerIsCloseToPortal( void ); //defined in C_Portal_Player.cpp, abstracting to a single bool function to remove explicit dependence on c_portal_player.h/cpp, you can define the function as a "return true" in other build configurations at the cost of some perf bool bUseDepthHack = !LocalPlayerIsCloseToPortal(); if( !bUseDepthHack ) pRenderContext->ClearBuffers( false, true, false ); #else const bool bUseDepthHack = true; #endif // FIXME: Add code to read the current depth range float depthmin = 0.0f; float depthmax = 1.0f; // HACK HACK: Munge the depth range to prevent view model from poking into walls, etc. // Force clipped down range if( bUseDepthHack ) pRenderContext->DepthRange( 0.0f, 0.1f ); if ( bShouldDrawPlayerViewModel || bShouldDrawToolViewModels ) { CUtlVector< IClientRenderable * > opaqueViewModelList( 32 ); CUtlVector< IClientRenderable * > translucentViewModelList( 32 ); ClientLeafSystem()->CollateViewModelRenderables( opaqueViewModelList, translucentViewModelList ); if ( ToolsEnabled() && ( !bShouldDrawPlayerViewModel || !bShouldDrawToolViewModels ) ) { int nOpaque = opaqueViewModelList.Count(); for ( int i = nOpaque-1; i >= 0; --i ) { IClientRenderable *pRenderable = opaqueViewModelList[ i ]; bool bEntity = pRenderable->GetIClientUnknown()->GetBaseEntity(); if ( ( bEntity && !bShouldDrawPlayerViewModel ) || ( !bEntity && !bShouldDrawToolViewModels ) ) { opaqueViewModelList.FastRemove( i ); } } int nTranslucent = translucentViewModelList.Count(); for ( int i = nTranslucent-1; i >= 0; --i ) { IClientRenderable *pRenderable = translucentViewModelList[ i ]; bool bEntity = pRenderable->GetIClientUnknown()->GetBaseEntity(); if ( ( bEntity && !bShouldDrawPlayerViewModel ) || ( !bEntity && !bShouldDrawToolViewModels ) ) { translucentViewModelList.FastRemove( i ); } } } if ( !UpdateRefractIfNeededByList( opaqueViewModelList ) ) { UpdateRefractIfNeededByList( translucentViewModelList ); } DrawRenderablesInList( opaqueViewModelList ); DrawRenderablesInList( translucentViewModelList, STUDIO_TRANSPARENCY ); } // Reset the depth range to the original values if( bUseDepthHack ) pRenderContext->DepthRange( depthmin, depthmax ); render->PopView( GetFrustum() ); // Restore the matrices pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PopMatrix(); } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CViewRender::ShouldDrawBrushModels( void ) { if ( m_pDrawBrushModels && !m_pDrawBrushModels->GetInt() ) return false; return true; } //----------------------------------------------------------------------------- // Purpose: Performs screen space effects, if any //----------------------------------------------------------------------------- void CViewRender::PerformScreenSpaceEffects( int x, int y, int w, int h ) { VPROF("CViewRender::PerformScreenSpaceEffects()"); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // FIXME: Screen-space effects are busted in the editor if ( engine->IsHammerRunning() ) return; g_pScreenSpaceEffects->RenderEffects( x, y, w, h ); } //----------------------------------------------------------------------------- // Purpose: Sets the screen space effect material (can't be done during rendering) //----------------------------------------------------------------------------- void CViewRender::SetScreenOverlayMaterial( IMaterial *pMaterial ) { m_ScreenOverlayMaterial.Init( pMaterial ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- IMaterial *CViewRender::GetScreenOverlayMaterial( ) { return m_ScreenOverlayMaterial; } //----------------------------------------------------------------------------- // Purpose: Performs screen space effects, if any //----------------------------------------------------------------------------- void CViewRender::PerformScreenOverlay( int x, int y, int w, int h ) { VPROF("CViewRender::PerformScreenOverlay()"); if (m_ScreenOverlayMaterial) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); if ( m_ScreenOverlayMaterial->NeedsFullFrameBufferTexture() ) { // FIXME: check with multi/sub-rect renders. Should this be 0,0,w,h instead? DrawScreenEffectMaterial( m_ScreenOverlayMaterial, x, y, w, h ); } else if ( m_ScreenOverlayMaterial->NeedsPowerOfTwoFrameBufferTexture() ) { // First copy the FB off to the offscreen texture UpdateRefractTexture( x, y, w, h, true ); // Now draw the entire screen using the material... CMatRenderContextPtr pRenderContext( materials ); ITexture *pTexture = GetPowerOfTwoFrameBufferTexture( ); int sw = pTexture->GetActualWidth(); int sh = pTexture->GetActualHeight(); // Note - don't offset by x,y - already done by the viewport. pRenderContext->DrawScreenSpaceRectangle( m_ScreenOverlayMaterial, 0, 0, w, h, 0, 0, sw-1, sh-1, sw, sh ); } else { byte color[4] = { 255, 255, 255, 255 }; render->ViewDrawFade( color, m_ScreenOverlayMaterial ); } } } void CViewRender::DrawUnderwaterOverlay( void ) { IMaterial *pOverlayMat = m_UnderWaterOverlayMaterial; if ( pOverlayMat ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); CMatRenderContextPtr pRenderContext( materials ); int x, y, w, h; pRenderContext->GetViewport( x, y, w, h ); if ( pOverlayMat->NeedsFullFrameBufferTexture() ) { // FIXME: check with multi/sub-rect renders. Should this be 0,0,w,h instead? DrawScreenEffectMaterial( pOverlayMat, x, y, w, h ); } else if ( pOverlayMat->NeedsPowerOfTwoFrameBufferTexture() ) { // First copy the FB off to the offscreen texture UpdateRefractTexture( x, y, w, h, true ); // Now draw the entire screen using the material... CMatRenderContextPtr pRenderContextMat( materials ); ITexture *pTexture = GetPowerOfTwoFrameBufferTexture( ); int sw = pTexture->GetActualWidth(); int sh = pTexture->GetActualHeight(); // Note - don't offset by x,y - already done by the viewport. pRenderContextMat->DrawScreenSpaceRectangle( pOverlayMat, 0, 0, w, h, 0, 0, sw-1, sh-1, sw, sh ); } else { // Note - don't offset by x,y - already done by the viewport. // FIXME: actually test this code path. pRenderContext->DrawScreenSpaceRectangle( pOverlayMat, 0, 0, w, h, 0, 0, 1, 1, 1, 1 ); } } } //----------------------------------------------------------------------------- // Purpose: Returns the min/max fade distances //----------------------------------------------------------------------------- void CViewRender::GetScreenFadeDistances( float *min, float *max ) { if ( min ) { *min = r_screenfademinsize.GetFloat(); } if ( max ) { *max = r_screenfademaxsize.GetFloat(); } } C_BaseEntity *CViewRender::GetCurrentlyDrawingEntity() { return m_pCurrentlyDrawingEntity; } void CViewRender::SetCurrentlyDrawingEntity( C_BaseEntity *pEnt ) { m_pCurrentlyDrawingEntity = pEnt; } bool CViewRender::UpdateShadowDepthTexture( ITexture *pRenderTarget, ITexture *pDepthTexture, const CViewSetup &shadowViewIn ) { VPROF_INCREMENT_COUNTER( "shadow depth textures rendered", 1 ); CMatRenderContextPtr pRenderContext( materials ); char szPIXEventName[128]; sprintf( szPIXEventName, "UpdateShadowDepthTexture (%s)", pDepthTexture->GetName() ); PIXEVENT( pRenderContext, szPIXEventName ); CRefPtr pShadowDepthView = new CShadowDepthView( this ); pShadowDepthView->Setup( shadowViewIn, pRenderTarget, pDepthTexture ); AddViewToScene( pShadowDepthView ); return true; } //----------------------------------------------------------------------------- // Purpose: Renders world and all entities, etc. //----------------------------------------------------------------------------- void CViewRender::ViewDrawScene( bool bDrew3dSkybox, SkyboxVisibility_t nSkyboxVisible, const CViewSetup &viewRender, int nClearFlags, view_id_t viewID, bool bDrawViewModel, int baseDrawFlags, ViewCustomVisibility_t *pCustomVisibility ) { VPROF( "CViewRender::ViewDrawScene" ); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // this allows the refract texture to be updated once per *scene* on 360 // (e.g. once for a monitor scene and once for the main scene) g_viewscene_refractUpdateFrame = gpGlobals->framecount - 1; g_pClientShadowMgr->PreRender(); // Shadowed flashlights supported on ps_2_b and up... if ( r_flashlightdepthtexture.GetBool() && (viewID == VIEW_MAIN) ) { g_pClientShadowMgr->ComputeShadowDepthTextures( viewRender ); } m_BaseDrawFlags = baseDrawFlags; SetupCurrentView( viewRender.origin, viewRender.angles, viewID ); // Invoke pre-render methods IGameSystem::PreRenderAllSystems(); // Start view unsigned int visFlags; SetupVis( viewRender, visFlags, pCustomVisibility ); if ( !bDrew3dSkybox && ( nSkyboxVisible == SKYBOX_NOT_VISIBLE ) && ( visFlags & IVRenderView::VIEW_SETUP_VIS_EX_RETURN_FLAGS_USES_RADIAL_VIS ) ) { // This covers the case where we don't see a 3dskybox, yet radial vis is clipping // the far plane. Need to clear to fog color in this case. nClearFlags |= VIEW_CLEAR_COLOR; SetClearColorToFogColor( ); } bool drawSkybox = r_skybox.GetBool(); if ( bDrew3dSkybox || ( nSkyboxVisible == SKYBOX_NOT_VISIBLE ) ) { drawSkybox = false; } ParticleMgr()->IncrementFrameCode(); DrawWorldAndEntities( drawSkybox, viewRender, nClearFlags, pCustomVisibility ); // Disable fog for the rest of the stuff DisableFog(); // UNDONE: Don't do this with masked brush models, they should probably be in a separate list // render->DrawMaskEntities() // Here are the overlays... CGlowOverlay::DrawOverlays( viewRender.m_bCacheFullSceneState ); // issue the pixel visibility tests if ( IsMainView( CurrentViewID() ) ) { PixelVisibility_EndCurrentView(); } // Draw rain.. DrawPrecipitation(); // Make sure sound doesn't stutter engine->Sound_ExtraUpdate(); // Debugging info goes over the top CDebugViewRender::Draw3DDebuggingInfo( viewRender ); // Draw client side effects // NOTE: These are not sorted against the rest of the frame clienteffects->DrawEffects( gpGlobals->frametime ); // Mark the frame as locked down for client fx additions SetFXCreationAllowed( false ); // Invoke post-render methods IGameSystem::PostRenderAllSystems(); FinishCurrentView(); // Free shadow depth textures for use in future view if ( r_flashlightdepthtexture.GetBool() ) { g_pClientShadowMgr->UnlockAllShadowDepthTextures(); } } void CheckAndTransitionColor( float flPercent, float *pColor, float *pLerpToColor ) { if ( pLerpToColor[0] != pColor[0] || pLerpToColor[1] != pColor[1] || pLerpToColor[2] != pColor[2] ) { float flDestColor[3]; flDestColor[0] = pLerpToColor[0]; flDestColor[1] = pLerpToColor[1]; flDestColor[2] = pLerpToColor[2]; pColor[0] = FLerp( pColor[0], flDestColor[0], flPercent ); pColor[1] = FLerp( pColor[1], flDestColor[1], flPercent ); pColor[2] = FLerp( pColor[2], flDestColor[2], flPercent ); } else { pColor[0] = pLerpToColor[0]; pColor[1] = pLerpToColor[1]; pColor[2] = pLerpToColor[2]; } } static void GetFogColorTransition( fogparams_t *pFogParams, float *pColorPrimary, float *pColorSecondary ) { if ( !pFogParams ) return; if ( pFogParams->lerptime >= gpGlobals->curtime ) { float flPercent = 1.0f - (( pFogParams->lerptime - gpGlobals->curtime ) / pFogParams->duration ); float flPrimaryColorLerp[3] = { (float)pFogParams->colorPrimaryLerpTo.GetR(), (float)pFogParams->colorPrimaryLerpTo.GetG(), (float)pFogParams->colorPrimaryLerpTo.GetB() }; float flSecondaryColorLerp[3] = { (float)pFogParams->colorSecondaryLerpTo.GetR(), (float)pFogParams->colorSecondaryLerpTo.GetG(), (float)pFogParams->colorSecondaryLerpTo.GetB() }; CheckAndTransitionColor( flPercent, pColorPrimary, flPrimaryColorLerp ); CheckAndTransitionColor( flPercent, pColorSecondary, flSecondaryColorLerp ); } } //----------------------------------------------------------------------------- // Purpose: Returns the fog color to use in rendering the current frame. //----------------------------------------------------------------------------- static void GetFogColor( fogparams_t *pFogParams, float *pColor ) { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if ( !pbp || !pFogParams ) return; const char *fogColorString = fog_color.GetString(); if( fog_override.GetInt() && fogColorString ) { sscanf( fogColorString, "%f%f%f", pColor, pColor+1, pColor+2 ); } else { float flPrimaryColor[3] = { (float)pFogParams->colorPrimary.GetR(), (float)pFogParams->colorPrimary.GetG(), (float)pFogParams->colorPrimary.GetB() }; float flSecondaryColor[3] = { (float)pFogParams->colorSecondary.GetR(), (float)pFogParams->colorSecondary.GetG(), (float)pFogParams->colorSecondary.GetB() }; GetFogColorTransition( pFogParams, flPrimaryColor, flSecondaryColor ); if( pFogParams->blend ) { // // Blend between two fog colors based on viewing angle. // The secondary fog color is at 180 degrees to the primary fog color. // Vector forward; pbp->EyeVectors( &forward, NULL, NULL ); Vector vNormalized = pFogParams->dirPrimary; VectorNormalize( vNormalized ); pFogParams->dirPrimary = vNormalized; float flBlendFactor = 0.5 * forward.Dot( pFogParams->dirPrimary ) + 0.5; // FIXME: convert to linear colorspace pColor[0] = flPrimaryColor[0] * flBlendFactor + flSecondaryColor[0] * ( 1 - flBlendFactor ); pColor[1] = flPrimaryColor[1] * flBlendFactor + flSecondaryColor[1] * ( 1 - flBlendFactor ); pColor[2] = flPrimaryColor[2] * flBlendFactor + flSecondaryColor[2] * ( 1 - flBlendFactor ); } else { pColor[0] = flPrimaryColor[0]; pColor[1] = flPrimaryColor[1]; pColor[2] = flPrimaryColor[2]; } } VectorScale( pColor, 1.0f / 255.0f, pColor ); } static float GetFogStart( fogparams_t *pFogParams ) { if( !pFogParams ) return 0.0f; if( fog_override.GetInt() ) { if( fog_start.GetFloat() == -1.0f ) { return pFogParams->start; } else { return fog_start.GetFloat(); } } else { if ( pFogParams->lerptime > gpGlobals->curtime ) { if ( pFogParams->start != pFogParams->startLerpTo ) { if ( pFogParams->lerptime > gpGlobals->curtime ) { float flPercent = 1.0f - (( pFogParams->lerptime - gpGlobals->curtime ) / pFogParams->duration ); return FLerp( pFogParams->start, pFogParams->startLerpTo, flPercent ); } else { if ( pFogParams->start != pFogParams->startLerpTo ) { pFogParams->start = pFogParams->startLerpTo; } } } } return pFogParams->start; } } static float GetFogEnd( fogparams_t *pFogParams ) { if( !pFogParams ) return 0.0f; if( fog_override.GetInt() ) { if( fog_end.GetFloat() == -1.0f ) { return pFogParams->end; } else { return fog_end.GetFloat(); } } else { if ( pFogParams->lerptime > gpGlobals->curtime ) { if ( pFogParams->end != pFogParams->endLerpTo ) { if ( pFogParams->lerptime > gpGlobals->curtime ) { float flPercent = 1.0f - (( pFogParams->lerptime - gpGlobals->curtime ) / pFogParams->duration ); return FLerp( pFogParams->end, pFogParams->endLerpTo, flPercent ); } else { if ( pFogParams->end != pFogParams->endLerpTo ) { pFogParams->end = pFogParams->endLerpTo; } } } } return pFogParams->end; } } static bool GetFogEnable( fogparams_t *pFogParams ) { if ( cl_leveloverview.GetFloat() > 0 ) return false; // Ask the clientmode if ( g_pClientMode->ShouldDrawFog() == false ) return false; if( fog_override.GetInt() ) { if( fog_enable.GetInt() ) { return true; } else { return false; } } else { if( pFogParams ) return pFogParams->enable != false; return false; } } static float GetFogMaxDensity( fogparams_t *pFogParams ) { if( !pFogParams ) return 1.0f; if ( cl_leveloverview.GetFloat() > 0 ) return 1.0f; // Ask the clientmode if ( !g_pClientMode->ShouldDrawFog() ) return 1.0f; if ( fog_override.GetInt() ) { if ( fog_maxdensity.GetFloat() == -1.0f ) return pFogParams->maxdensity; else return fog_maxdensity.GetFloat(); } else return pFogParams->maxdensity; } //----------------------------------------------------------------------------- // Purpose: Returns the skybox fog color to use in rendering the current frame. //----------------------------------------------------------------------------- static void GetSkyboxFogColor( float *pColor ) { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if( !pbp ) { return; } CPlayerLocalData *local = &pbp->m_Local; const char *fogColorString = fog_colorskybox.GetString(); if( fog_override.GetInt() && fogColorString ) { sscanf( fogColorString, "%f%f%f", pColor, pColor+1, pColor+2 ); } else { if( local->m_skybox3d.fog.blend ) { // // Blend between two fog colors based on viewing angle. // The secondary fog color is at 180 degrees to the primary fog color. // Vector forward; pbp->EyeVectors( &forward, NULL, NULL ); Vector vNormalized = local->m_skybox3d.fog.dirPrimary; VectorNormalize( vNormalized ); local->m_skybox3d.fog.dirPrimary = vNormalized; float flBlendFactor = 0.5 * forward.Dot( local->m_skybox3d.fog.dirPrimary ) + 0.5; // FIXME: convert to linear colorspace pColor[0] = local->m_skybox3d.fog.colorPrimary.GetR() * flBlendFactor + local->m_skybox3d.fog.colorSecondary.GetR() * ( 1 - flBlendFactor ); pColor[1] = local->m_skybox3d.fog.colorPrimary.GetG() * flBlendFactor + local->m_skybox3d.fog.colorSecondary.GetG() * ( 1 - flBlendFactor ); pColor[2] = local->m_skybox3d.fog.colorPrimary.GetB() * flBlendFactor + local->m_skybox3d.fog.colorSecondary.GetB() * ( 1 - flBlendFactor ); } else { pColor[0] = local->m_skybox3d.fog.colorPrimary.GetR(); pColor[1] = local->m_skybox3d.fog.colorPrimary.GetG(); pColor[2] = local->m_skybox3d.fog.colorPrimary.GetB(); } } VectorScale( pColor, 1.0f / 255.0f, pColor ); } static float GetSkyboxFogStart( void ) { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if( !pbp ) { return 0.0f; } CPlayerLocalData *local = &pbp->m_Local; if( fog_override.GetInt() ) { if( fog_startskybox.GetFloat() == -1.0f ) { return local->m_skybox3d.fog.start; } else { return fog_startskybox.GetFloat(); } } else { return local->m_skybox3d.fog.start; } } static float GetSkyboxFogEnd( void ) { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if( !pbp ) { return 0.0f; } CPlayerLocalData *local = &pbp->m_Local; if( fog_override.GetInt() ) { if( fog_endskybox.GetFloat() == -1.0f ) { return local->m_skybox3d.fog.end; } else { return fog_endskybox.GetFloat(); } } else { return local->m_skybox3d.fog.end; } } static float GetSkyboxFogMaxDensity() { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if ( !pbp ) return 1.0f; CPlayerLocalData *local = &pbp->m_Local; if ( cl_leveloverview.GetFloat() > 0 ) return 1.0f; // Ask the clientmode if ( !g_pClientMode->ShouldDrawFog() ) return 1.0f; if ( fog_override.GetInt() ) { if ( fog_maxdensityskybox.GetFloat() == -1.0f ) return local->m_skybox3d.fog.maxdensity; else return fog_maxdensityskybox.GetFloat(); } else return local->m_skybox3d.fog.maxdensity; } void CViewRender::DisableFog( void ) { VPROF("CViewRander::DisableFog()"); CMatRenderContextPtr pRenderContext( materials ); pRenderContext->FogMode( MATERIAL_FOG_NONE ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CViewRender::SetupVis( const CViewSetup& viewRender, unsigned int &visFlags, ViewCustomVisibility_t *pCustomVisibility ) { VPROF( "CViewRender::SetupVis" ); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); if ( pCustomVisibility && pCustomVisibility->m_nNumVisOrigins ) { // Pass array or vis origins to merge render->ViewSetupVisEx( ShouldForceNoVis(), pCustomVisibility->m_nNumVisOrigins, pCustomVisibility->m_rgVisOrigins, visFlags ); } else { // Use render origin as vis origin by default render->ViewSetupVisEx( ShouldForceNoVis(), 1, &viewRender.origin, visFlags ); } } //----------------------------------------------------------------------------- // Purpose: Renders voice feedback and other sprites attached to players // Input : none //----------------------------------------------------------------------------- void CViewRender::RenderPlayerSprites() { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); GetClientVoiceMgr()->DrawHeadLabels(); } //----------------------------------------------------------------------------- // Sets up, cleans up the main 3D view //----------------------------------------------------------------------------- void CViewRender::SetupMain3DView( const CViewSetup &viewRender, int &nClearFlags ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // FIXME: I really want these fields removed from CViewSetup // and passed in as independent flags // Clear the color here if requested. int nDepthStencilFlags = nClearFlags & ( VIEW_CLEAR_DEPTH | VIEW_CLEAR_STENCIL ); nClearFlags &= ~( nDepthStencilFlags ); // Clear these flags if ( nClearFlags & VIEW_CLEAR_COLOR ) { nClearFlags |= nDepthStencilFlags; // Add them back in if we're clearing color } // If we are using HDR, we render to the HDR full frame buffer texture // instead of whatever was previously the render target if( g_pMaterialSystemHardwareConfig->GetHDRType() == HDR_TYPE_FLOAT ) { render->Push3DView( viewRender, nClearFlags, GetFullFrameFrameBufferTexture( 0 ), GetFrustum() ); } else { ITexture *pRTColor = NULL; ITexture *pRTDepth = NULL; if( viewRender.m_eStereoEye != STEREO_EYE_MONO ) { pRTColor = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(viewRender.m_eStereoEye-1), ISourceVirtualReality::RT_Color ); pRTDepth = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(viewRender.m_eStereoEye-1), ISourceVirtualReality::RT_Depth ); } render->Push3DView( viewRender, nClearFlags, pRTColor, GetFrustum(), pRTDepth ); } // If we didn't clear the depth here, we'll need to clear it later nClearFlags ^= nDepthStencilFlags; // Toggle these bits if ( nClearFlags & VIEW_CLEAR_COLOR ) { // If we cleared the color here, we don't need to clear it later nClearFlags &= ~( VIEW_CLEAR_COLOR | VIEW_CLEAR_FULL_TARGET ); } } void CViewRender::CleanupMain3DView( const CViewSetup &viewRender ) { render->PopView( GetFrustum() ); } //----------------------------------------------------------------------------- // Queues up an overlay rendering //----------------------------------------------------------------------------- void CViewRender::QueueOverlayRenderView( const CViewSetup &viewRender, int nClearFlags, int whatToDraw ) { // Can't have 2 in a single scene Assert( !m_bDrawOverlay ); m_bDrawOverlay = true; m_OverlayViewSetup = viewRender; m_OverlayClearFlags = nClearFlags; m_OverlayDrawFlags = whatToDraw; } //----------------------------------------------------------------------------- // Purpose: Force the view to freeze on the next frame for the specified time //----------------------------------------------------------------------------- void CViewRender::FreezeFrame( float flFreezeTime ) { if ( flFreezeTime == 0 ) { m_flFreezeFrameUntil = 0; for( int i=0; i < STEREO_EYE_MAX; i++ ) { m_rbTakeFreezeFrame[ i ] = false; } } else { if ( m_flFreezeFrameUntil > gpGlobals->curtime ) { m_flFreezeFrameUntil += flFreezeTime; } else { m_flFreezeFrameUntil = gpGlobals->curtime + flFreezeTime; for( int i=GetFirstEye(); i <= GetLastEye(); i++ ) { m_rbTakeFreezeFrame[ i ] = true; } } } } const char *COM_GetModDirectory(); //----------------------------------------------------------------------------- // Purpose: This renders the entire 3D view and the in-game hud/viewmodel // Input : &view - // whatToDraw - //----------------------------------------------------------------------------- // This renders the entire 3D view. void CViewRender::RenderView( const CViewSetup &viewRender, int nClearFlags, int whatToDraw ) { m_UnderWaterOverlayMaterial.Shutdown(); // underwater view will set m_CurrentView = viewRender; C_BaseAnimating::AutoAllowBoneAccess boneaccess( true, true ); VPROF( "CViewRender::RenderView" ); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // Don't want TF2 running less than DX 8 if ( g_pMaterialSystemHardwareConfig->GetDXSupportLevel() < 80 ) { // We know they were running at least 8.0 when the game started...we check the // value in ClientDLL_Init()...so they must be messing with their DirectX settings. if ( ( Q_stricmp( COM_GetModDirectory(), "tf" ) == 0 ) || ( Q_stricmp( COM_GetModDirectory(), "tf_beta" ) == 0 ) ) { static bool bFirstTime = true; if ( bFirstTime ) { bFirstTime = false; Msg( "This game has a minimum requirement of DirectX 8.0 to run properly.\n" ); } return; } } CMatRenderContextPtr pRenderContext( materials ); ITexture *saveRenderTarget = pRenderContext->GetRenderTarget(); pRenderContext.SafeRelease(); // don't want to hold for long periods in case in a locking active share thread mode if ( !m_rbTakeFreezeFrame[viewRender.m_eStereoEye ] && m_flFreezeFrameUntil > gpGlobals->curtime ) { CRefPtr pFreezeFrameView = new CFreezeFrameView( this ); pFreezeFrameView->Setup( viewRender ); AddViewToScene( pFreezeFrameView ); g_bRenderingView = true; s_bCanAccessCurrentView = true; } else { g_flFreezeFlash = 0.0f; g_pClientShadowMgr->AdvanceFrame(); #ifdef USE_MONITORS if ( cl_drawmonitors.GetBool() && ( g_pMaterialSystemHardwareConfig->GetDXSupportLevel() >= 70 ) && ( ( whatToDraw & RENDERVIEW_SUPPRESSMONITORRENDERING ) == 0 ) ) { CViewSetup viewMiddle = GetView( STEREO_EYE_MONO ); DrawMonitors( viewMiddle ); } #endif g_bRenderingView = true; // Must be first render->SceneBegin(); pRenderContext.GetFrom( materials ); pRenderContext->TurnOnToneMapping(); pRenderContext.SafeRelease(); // clear happens here probably SetupMain3DView( viewRender, nClearFlags ); bool bDrew3dSkybox = false; SkyboxVisibility_t nSkyboxVisible = SKYBOX_NOT_VISIBLE; // if the 3d skybox world is drawn, then don't draw the normal skybox CSkyboxView *pSkyView = new CSkyboxView( this ); if ( ( bDrew3dSkybox = pSkyView->Setup( viewRender, &nClearFlags, &nSkyboxVisible ) ) != false ) { AddViewToScene( pSkyView ); } SafeRelease( pSkyView ); // Force it to clear the framebuffer if they're in solid space. if ( ( nClearFlags & VIEW_CLEAR_COLOR ) == 0 ) { if ( enginetrace->GetPointContents( viewRender.origin ) == CONTENTS_SOLID ) { nClearFlags |= VIEW_CLEAR_COLOR; } } // Render world and all entities, particles, etc. if( !g_pIntroData ) { ViewDrawScene( bDrew3dSkybox, nSkyboxVisible, viewRender, nClearFlags, VIEW_MAIN, whatToDraw & RENDERVIEW_DRAWVIEWMODEL ); } else { ViewDrawScene_Intro( viewRender, nClearFlags, *g_pIntroData ); } // We can still use the 'current view' stuff set up in ViewDrawScene s_bCanAccessCurrentView = true; engine->DrawPortals(); DisableFog(); // Finish scene render->SceneEnd(); // Draw lightsources if enabled render->DrawLights(); RenderPlayerSprites(); // Image-space motion blur if ( !building_cubemaps.GetBool() && viewRender.m_bDoBloomAndToneMapping ) // We probably should use a different view. variable here { static ConVarRef mat_motion_blur_enabled( "mat_motion_blur_enabled" ); if ( ( mat_motion_blur_enabled.GetInt() ) && ( g_pMaterialSystemHardwareConfig->GetDXSupportLevel() >= 90 ) ) { pRenderContext.GetFrom( materials ); { PIXEVENT( pRenderContext, "DoImageSpaceMotionBlur" ); DoImageSpaceMotionBlur( viewRender, viewRender.x, viewRender.y, viewRender.width, viewRender.height ); } pRenderContext.SafeRelease(); } } GetClientModeNormal()->DoPostScreenSpaceEffects( &viewRender ); // Now actually draw the viewmodel DrawViewModels( viewRender, whatToDraw & RENDERVIEW_DRAWVIEWMODEL ); DrawUnderwaterOverlay(); PixelVisibility_EndScene(); // Draw fade over entire screen if needed byte color[4]; bool blend; vieweffects->GetFadeParams( &color[0], &color[1], &color[2], &color[3], &blend ); // Draw an overlay to make it even harder to see inside smoke particle systems. DrawSmokeFogOverlay(); // Overlay screen fade on entire screen IMaterial* pMaterial = blend ? m_ModulateSingleColor : m_TranslucentSingleColor; render->ViewDrawFade( color, pMaterial ); PerformScreenOverlay( viewRender.x, viewRender.y, viewRender.width, viewRender.height ); // Prevent sound stutter if going slow engine->Sound_ExtraUpdate(); if ( !building_cubemaps.GetBool() && viewRender.m_bDoBloomAndToneMapping ) { pRenderContext.GetFrom( materials ); { PIXEVENT( pRenderContext, "DoEnginePostProcessing" ); bool bFlashlightIsOn = false; C_BasePlayer *pLocal = C_BasePlayer::GetLocalPlayer(); if ( pLocal ) { bFlashlightIsOn = pLocal->IsEffectActive( EF_DIMLIGHT ); } DoEnginePostProcessing( viewRender.x, viewRender.y, viewRender.width, viewRender.height, bFlashlightIsOn ); } pRenderContext.SafeRelease(); } // And here are the screen-space effects if ( IsPC() ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "GrabPreColorCorrectedFrame" ); // Grab the pre-color corrected frame for editing purposes engine->GrabPreColorCorrectedFrame( viewRender.x, viewRender.y, viewRender.width, viewRender.height ); } PerformScreenSpaceEffects( 0, 0, viewRender.width, viewRender.height ); if ( g_pMaterialSystemHardwareConfig->GetHDRType() == HDR_TYPE_INTEGER ) { pRenderContext.GetFrom( materials ); pRenderContext->SetToneMappingScaleLinear(Vector(1,1,1)); pRenderContext.SafeRelease(); } CleanupMain3DView( viewRender ); if ( m_rbTakeFreezeFrame[viewRender.m_eStereoEye ] ) { Rect_t rect; rect.x = viewRender.x; rect.y = viewRender.y; rect.width = viewRender.width; rect.height = viewRender.height; pRenderContext = materials->GetRenderContext(); if ( IsX360() ) { // 360 doesn't create the Fullscreen texture pRenderContext->CopyRenderTargetToTextureEx( GetFullFrameFrameBufferTexture( 1 ), 0, &rect, &rect ); } else { pRenderContext->CopyRenderTargetToTextureEx( GetFullscreenTexture(), 0, &rect, &rect ); } pRenderContext.SafeRelease(); m_rbTakeFreezeFrame[viewRender.m_eStereoEye ] = false; } pRenderContext = materials->GetRenderContext(); pRenderContext->SetRenderTarget( saveRenderTarget ); pRenderContext.SafeRelease(); // Draw the overlay if ( m_bDrawOverlay ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "DrawOverlay" ); // This allows us to be ok if there are nested overlay views CViewSetup currentView = m_CurrentView; CViewSetup tempView = m_OverlayViewSetup; tempView.fov = ScaleFOVByWidthRatio( tempView.fov, tempView.m_flAspectRatio / ( 4.0f / 3.0f ) ); tempView.m_bDoBloomAndToneMapping = false; // FIXME: Hack to get Mark up and running m_bDrawOverlay = false; RenderView( tempView, m_OverlayClearFlags, m_OverlayDrawFlags ); m_CurrentView = currentView; } } if ( mat_viewportupscale.GetBool() && mat_viewportscale.GetFloat() < 1.0f ) { CMatRenderContextPtr pRenderContextUpscale( materials ); ITexture *pFullFrameFB1 = materials->FindTexture( "_rt_FullFrameFB1", TEXTURE_GROUP_RENDER_TARGET ); IMaterial *pCopyMaterial = materials->FindMaterial( "dev/upscale", TEXTURE_GROUP_OTHER ); pCopyMaterial->IncrementReferenceCount(); Rect_t DownscaleRect, UpscaleRect; DownscaleRect.x = viewRender.x; DownscaleRect.y = viewRender.y; DownscaleRect.width = viewRender.width; DownscaleRect.height = viewRender.height; UpscaleRect.x = viewRender.m_nUnscaledX; UpscaleRect.y = viewRender.m_nUnscaledY; UpscaleRect.width = viewRender.m_nUnscaledWidth; UpscaleRect.height = viewRender.m_nUnscaledHeight; pRenderContextUpscale->CopyRenderTargetToTextureEx( pFullFrameFB1, 0, &DownscaleRect, &DownscaleRect ); pRenderContextUpscale->DrawScreenSpaceRectangle( pCopyMaterial, UpscaleRect.x, UpscaleRect.y, UpscaleRect.width, UpscaleRect.height, DownscaleRect.x, DownscaleRect.y, DownscaleRect.x+DownscaleRect.width-1, DownscaleRect.y+DownscaleRect.height-1, pFullFrameFB1->GetActualWidth(), pFullFrameFB1->GetActualHeight() ); pCopyMaterial->DecrementReferenceCount(); } // if we're in VR mode we might need to override the render target if( UseVR() ) { saveRenderTarget = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(viewRender.m_eStereoEye - 1), ISourceVirtualReality::RT_Color ); } // Draw the 2D graphics render->Push2DView( viewRender, 0, saveRenderTarget, GetFrustum() ); Render2DEffectsPreHUD( viewRender ); if ( whatToDraw & RENDERVIEW_DRAWHUD ) { VPROF_BUDGET( "VGui_DrawHud", VPROF_BUDGETGROUP_OTHER_VGUI ); int viewWidth = viewRender.m_nUnscaledWidth; int viewHeight = viewRender.m_nUnscaledHeight; int viewActualWidth = viewRender.m_nUnscaledWidth; int viewActualHeight = viewRender.m_nUnscaledHeight; int viewX = viewRender.m_nUnscaledX; int viewY = viewRender.m_nUnscaledY; int viewFramebufferX = 0; int viewFramebufferY = 0; int viewFramebufferWidth = viewWidth; int viewFramebufferHeight = viewHeight; bool bClear = false; bool bPaintMainMenu = false; ITexture *pTexture = NULL; if( UseVR() ) { if( g_ClientVirtualReality.ShouldRenderHUDInWorld() ) { pTexture = materials->FindTexture( "_rt_gui", NULL, false ); if( pTexture ) { bPaintMainMenu = true; bClear = true; viewX = 0; viewY = 0; viewActualWidth = pTexture->GetActualWidth(); viewActualHeight = pTexture->GetActualHeight(); vgui::surface()->GetScreenSize( viewWidth, viewHeight ); viewFramebufferX = 0; if( viewRender.m_eStereoEye == STEREO_EYE_RIGHT && !saveRenderTarget ) viewFramebufferX = viewFramebufferWidth; viewFramebufferY = 0; } } else { viewFramebufferX = viewRender.m_eStereoEye == STEREO_EYE_RIGHT ? viewWidth : 0; viewFramebufferY = 0; } } // Get the render context out of materials to avoid some debug stuff. // WARNING THIS REQUIRES THE .SafeRelease below or it'll never release the ref pRenderContext = materials->GetRenderContext(); // clear depth in the backbuffer before we push the render target if( bClear ) { pRenderContext->ClearBuffers( false, true, true ); } // constrain where VGUI can render to the view pRenderContext->PushRenderTargetAndViewport( pTexture, NULL, viewX, viewY, viewActualWidth, viewActualHeight ); // If drawing off-screen, force alpha for that pass if (pTexture) { pRenderContext->OverrideAlphaWriteEnable( true, true ); } // let vgui know where to render stuff for the forced-to-framebuffer panels if( UseVR() ) { g_pMatSystemSurface->SetFullscreenViewportAndRenderTarget( viewFramebufferX, viewFramebufferY, viewFramebufferWidth, viewFramebufferHeight, saveRenderTarget ); } // clear the render target if we need to if( bClear ) { pRenderContext->ClearColor4ub( 0, 0, 0, 0 ); pRenderContext->ClearBuffers( true, false ); } pRenderContext.SafeRelease(); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "VGui_DrawHud", __FUNCTION__ ); // paint the vgui screen VGui_PreRender(); // Make sure the client .dll root panel is at the proper point before doing the "SolveTraverse" calls vgui::VPANEL root = enginevgui->GetPanel( PANEL_CLIENTDLL ); if ( root != 0 ) { vgui::ipanel()->SetSize( root, viewWidth, viewHeight ); } // Same for client .dll tools root = enginevgui->GetPanel( PANEL_CLIENTDLL_TOOLS ); if ( root != 0 ) { vgui::ipanel()->SetSize( root, viewWidth, viewHeight ); } // The crosshair, etc. needs to get at the current setup stuff AllowCurrentViewAccess( true ); // Draw the in-game stuff based on the actual viewport being used render->VGui_Paint( PAINT_INGAMEPANELS ); // maybe paint the main menu and cursor too if we're in stereo hud mode if( bPaintMainMenu ) render->VGui_Paint( PAINT_UIPANELS | PAINT_CURSOR ); AllowCurrentViewAccess( false ); VGui_PostRender(); g_pClientMode->PostRenderVGui(); pRenderContext = materials->GetRenderContext(); if (pTexture) { pRenderContext->OverrideAlphaWriteEnable( false, true ); } pRenderContext->PopRenderTargetAndViewport(); if ( UseVR() ) { // figure out if we really want to draw the HUD based on freeze cam C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); bool bInFreezeCam = ( pPlayer && pPlayer->GetObserverMode() == OBS_MODE_FREEZECAM ); // draw the HUD after the view model so its "I'm closer" depth queues work right. if( !bInFreezeCam && g_ClientVirtualReality.ShouldRenderHUDInWorld() ) { // Now we've rendered the HUD to its texture, actually get it on the screen. // Since we're drawing it as a 3D object, we need correctly set up frustum, etc. int ClearFlags = 0; SetupMain3DView( viewRender, ClearFlags ); // TODO - a bit of a shonky test - basically trying to catch the main menu, the briefing screen, the loadout screen, etc. bool bTranslucent = !g_pMatSystemSurface->IsCursorVisible(); g_ClientVirtualReality.RenderHUDQuad( g_pClientMode->ShouldBlackoutAroundHUD(), bTranslucent ); CleanupMain3DView( viewRender ); } } pRenderContext->Flush(); pRenderContext.SafeRelease(); } CDebugViewRender::Draw2DDebuggingInfo( viewRender ); Render2DEffectsPostHUD( viewRender ); g_bRenderingView = false; // We can no longer use the 'current view' stuff set up in ViewDrawScene s_bCanAccessCurrentView = false; if ( IsPC() ) { CDebugViewRender::GenerateOverdrawForTesting(); } render->PopView( GetFrustum() ); g_WorldListCache.Flush(); } //----------------------------------------------------------------------------- // Purpose: Renders extra 2D effects in derived classes while the 2D view is on the stack //----------------------------------------------------------------------------- void CViewRender::Render2DEffectsPreHUD( const CViewSetup &viewRender ) { } //----------------------------------------------------------------------------- // Purpose: Renders extra 2D effects in derived classes while the 2D view is on the stack //----------------------------------------------------------------------------- void CViewRender::Render2DEffectsPostHUD( const CViewSetup &viewRender ) { } //----------------------------------------------------------------------------- // // NOTE: Below here is all of the stuff that needs to be done for water rendering // //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // Determines what kind of water we're going to use //----------------------------------------------------------------------------- void CViewRender::DetermineWaterRenderInfo( const VisibleFogVolumeInfo_t &fogVolumeInfo, WaterRenderInfo_t &info ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); // By default, assume cheap water (even if there's no water in the scene!) info.m_bCheapWater = true; info.m_bRefract = false; info.m_bReflect = false; info.m_bReflectEntities = false; info.m_bDrawWaterSurface = false; info.m_bOpaqueWater = true; IMaterial *pWaterMaterial = fogVolumeInfo.m_pFogVolumeMaterial; if (( fogVolumeInfo.m_nVisibleFogVolume == -1 ) || !pWaterMaterial ) return; // Use cheap water if mat_drawwater is set info.m_bDrawWaterSurface = mat_drawwater.GetBool(); if ( !info.m_bDrawWaterSurface ) { info.m_bOpaqueWater = false; return; } #ifdef _X360 bool bForceExpensive = false; #else bool bForceExpensive = r_waterforceexpensive.GetBool(); #endif bool bForceReflectEntities = r_waterforcereflectentities.GetBool(); #ifdef PORTAL switch( g_pPortalRender->ShouldForceCheaperWaterLevel() ) { case 0: //force cheap water info.m_bCheapWater = true; return; case 1: //downgrade level to "simple reflection" bForceExpensive = false; case 2: //downgrade level to "reflect world" bForceReflectEntities = false; default: break; }; #endif // Determine if the water surface is opaque or not info.m_bOpaqueWater = !pWaterMaterial->IsTranslucent(); // DX level 70 can't handle anything but cheap water if (engine->GetDXSupportLevel() < 80) return; bool bForceCheap = false; // The material can override the default settings though IMaterialVar *pForceCheapVar = pWaterMaterial->FindVar( "$forcecheap", NULL, false ); IMaterialVar *pForceExpensiveVar = pWaterMaterial->FindVar( "$forceexpensive", NULL, false ); if ( pForceCheapVar && pForceCheapVar->IsDefined() ) { bForceCheap = ( pForceCheapVar->GetIntValueFast() != 0 ); if ( bForceCheap ) { bForceExpensive = false; } } if ( !bForceCheap && pForceExpensiveVar && pForceExpensiveVar->IsDefined() ) { bForceExpensive = bForceExpensive || ( pForceExpensiveVar->GetIntValueFast() != 0 ); } bool bDebugCheapWater = r_debugcheapwater.GetBool(); if( bDebugCheapWater ) { Msg( "Water material: %s dist to water: %f\nforcecheap: %s forceexpensive: %s\n", pWaterMaterial->GetName(), fogVolumeInfo.m_flDistanceToWater, bForceCheap ? "true" : "false", bForceExpensive ? "true" : "false" ); } // Unless expensive water is active, reflections are off. bool bLocalReflection; #ifdef _X360 if( !r_WaterDrawReflection.GetBool() ) #else if( !bForceExpensive || !r_WaterDrawReflection.GetBool() ) #endif { bLocalReflection = false; } else { IMaterialVar *pReflectTextureVar = pWaterMaterial->FindVar( "$reflecttexture", NULL, false ); bLocalReflection = pReflectTextureVar && (pReflectTextureVar->GetType() == MATERIAL_VAR_TYPE_TEXTURE); } // Brian says FIXME: I disabled cheap water LOD when local specular is specified. // There are very few places that appear to actually // take advantage of it (places where water is in the PVS, but outside of LOD range). // It was 2 hours before code lock, and I had the choice of either doubling fill-rate everywhere // by making cheap water lod actually work (the water LOD wasn't actually rendering!!!) // or to just always render the reflection + refraction if there's a local specular specified. // Note that water LOD *does* work with refract-only water // Gary says: I'm reverting this change so that water LOD works on dx9 for ep2. // Check if the water is out of the cheap water LOD range; if so, use cheap water #ifdef _X360 if ( !bForceExpensive && ( bForceCheap || ( fogVolumeInfo.m_flDistanceToWater >= m_flCheapWaterEndDistance ) ) ) { return; } #else if ( ( (fogVolumeInfo.m_flDistanceToWater >= m_flCheapWaterEndDistance) && !bLocalReflection ) || bForceCheap ) return; #endif // Get the material that is for the water surface that is visible and check to see // what render targets need to be rendered, if any. if ( !r_WaterDrawRefraction.GetBool() ) { info.m_bRefract = false; } else { IMaterialVar *pRefractTextureVar = pWaterMaterial->FindVar( "$refracttexture", NULL, false ); info.m_bRefract = pRefractTextureVar && (pRefractTextureVar->GetType() == MATERIAL_VAR_TYPE_TEXTURE); // Refractive water can be seen through if ( info.m_bRefract ) { info.m_bOpaqueWater = false; } } info.m_bReflect = bLocalReflection; if ( info.m_bReflect ) { if( bForceReflectEntities ) { info.m_bReflectEntities = true; } else { IMaterialVar *pReflectEntitiesVar = pWaterMaterial->FindVar( "$reflectentities", NULL, false ); info.m_bReflectEntities = pReflectEntitiesVar && (pReflectEntitiesVar->GetIntValueFast() != 0); } } info.m_bCheapWater = !info.m_bReflect && !info.m_bRefract; if( bDebugCheapWater ) { Warning( "refract: %s reflect: %s\n", info.m_bRefract ? "true" : "false", info.m_bReflect ? "true" : "false" ); } } //----------------------------------------------------------------------------- // Draws the world and all entities //----------------------------------------------------------------------------- void CViewRender::DrawWorldAndEntities( bool bDrawSkybox, const CViewSetup &viewIn, int nClearFlags, ViewCustomVisibility_t *pCustomVisibility ) { MDLCACHE_CRITICAL_SECTION(); tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); VisibleFogVolumeInfo_t fogVolumeInfo; #ifdef PORTAL //in portal, we can't use the fog volume for the camera since it's almost never in the same fog volume as what's in front of the portal if( g_pPortalRender->GetViewRecursionLevel() == 0 ) { render->GetVisibleFogVolume( viewIn.origin, &fogVolumeInfo ); } else { render->GetVisibleFogVolume( g_pPortalRender->GetExitPortalFogOrigin(), &fogVolumeInfo ); } #else render->GetVisibleFogVolume( viewIn.origin, &fogVolumeInfo ); #endif WaterRenderInfo_t info; DetermineWaterRenderInfo( fogVolumeInfo, info ); if ( info.m_bCheapWater ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "bCheapWater" ); cplane_t glassReflectionPlane; if ( IsReflectiveGlassInView( viewIn, glassReflectionPlane ) ) { CRefPtr pGlassReflectionView = new CReflectiveGlassView( this ); pGlassReflectionView->Setup( viewIn, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, bDrawSkybox, fogVolumeInfo, info, glassReflectionPlane ); AddViewToScene( pGlassReflectionView ); CRefPtr pGlassRefractionView = new CRefractiveGlassView( this ); pGlassRefractionView->Setup( viewIn, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, bDrawSkybox, fogVolumeInfo, info, glassReflectionPlane ); AddViewToScene( pGlassRefractionView ); } CRefPtr pNoWaterView = new CSimpleWorldView( this ); pNoWaterView->Setup( viewIn, nClearFlags, bDrawSkybox, fogVolumeInfo, info, pCustomVisibility ); AddViewToScene( pNoWaterView ); return; } Assert( !pCustomVisibility ); // Blat out the visible fog leaf if we're not going to use it if ( !r_ForceWaterLeaf.GetBool() ) { fogVolumeInfo.m_nVisibleFogVolumeLeaf = -1; } // We can see water of some sort if ( !fogVolumeInfo.m_bEyeInFogVolume ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "CAboveWaterView" ); CRefPtr pAboveWaterView = new CAboveWaterView( this ); pAboveWaterView->Setup( viewIn, bDrawSkybox, fogVolumeInfo, info ); AddViewToScene( pAboveWaterView ); } else { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "CUnderWaterView" ); CRefPtr pUnderWaterView = new CUnderWaterView( this ); pUnderWaterView->Setup( viewIn, bDrawSkybox, fogVolumeInfo, info ); AddViewToScene( pUnderWaterView ); } } //----------------------------------------------------------------------------- // Pushes a water render target //----------------------------------------------------------------------------- static Vector SavedLinearLightMapScale(-1,-1,-1); // x<0 = no saved scale static void SetLightmapScaleForWater(void) { if (g_pMaterialSystemHardwareConfig->GetHDRType()==HDR_TYPE_INTEGER) { CMatRenderContextPtr pRenderContext( materials ); SavedLinearLightMapScale=pRenderContext->GetToneMappingScaleLinear(); Vector t25=SavedLinearLightMapScale; t25*=0.25; pRenderContext->SetToneMappingScaleLinear(t25); } } //----------------------------------------------------------------------------- // Returns true if the view plane intersects the water //----------------------------------------------------------------------------- bool DoesViewPlaneIntersectWater( float waterZ, int leafWaterDataID ) { if ( leafWaterDataID == -1 ) return false; #ifdef PORTAL //when rendering portal views point/plane intersections just don't cut it. if( g_pPortalRender->GetViewRecursionLevel() != 0 ) return g_pPortalRender->DoesExitPortalViewIntersectWaterPlane( waterZ, leafWaterDataID ); #endif CMatRenderContextPtr pRenderContext( materials ); VMatrix viewMatrix, projectionMatrix, viewProjectionMatrix, inverseViewProjectionMatrix; pRenderContext->GetMatrix( MATERIAL_VIEW, &viewMatrix ); pRenderContext->GetMatrix( MATERIAL_PROJECTION, &projectionMatrix ); MatrixMultiply( projectionMatrix, viewMatrix, viewProjectionMatrix ); MatrixInverseGeneral( viewProjectionMatrix, inverseViewProjectionMatrix ); Vector mins, maxs; ClearBounds( mins, maxs ); Vector testPoint[4]; testPoint[0].Init( -1.0f, -1.0f, 0.0f ); testPoint[1].Init( -1.0f, 1.0f, 0.0f ); testPoint[2].Init( 1.0f, -1.0f, 0.0f ); testPoint[3].Init( 1.0f, 1.0f, 0.0f ); int i; bool bAbove = false; bool bBelow = false; float fudge = 7.0f; for( i = 0; i < 4; i++ ) { Vector worldPos; Vector3DMultiplyPositionProjective( inverseViewProjectionMatrix, testPoint[i], worldPos ); AddPointToBounds( worldPos, mins, maxs ); // Warning( "viewplanez: %f waterZ: %f\n", worldPos.z, waterZ ); if( worldPos.z + fudge > waterZ ) { bAbove = true; } if( worldPos.z - fudge < waterZ ) { bBelow = true; } } // early out if the near plane doesn't cross the z plane of the water. if( !( bAbove && bBelow ) ) return false; Vector vecFudge( fudge, fudge, fudge ); mins -= vecFudge; maxs += vecFudge; // the near plane does cross the z value for the visible water volume. Call into // the engine to find out if the near plane intersects the water volume. return render->DoesBoxIntersectWaterVolume( mins, maxs, leafWaterDataID ); } #ifdef PORTAL //----------------------------------------------------------------------------- // Purpose: Draw the scene during another draw scene call. We must draw our portals // after opaques but before translucents, so this ViewDrawScene resets the view // and doesn't flag the rendering as ended when it ends. // Input : bDrawSkybox - do we draw the skybox // &view - the camera view to render from // nClearFlags - how to clear the buffer //----------------------------------------------------------------------------- void CViewRender::ViewDrawScene_PortalStencil( const CViewSetup &viewIn, ViewCustomVisibility_t *pCustomVisibility ) { VPROF( "CViewRender::ViewDrawScene_PortalStencil" ); CViewSetup view( viewIn ); // Record old view stats Vector vecOldOrigin = CurrentViewOrigin(); QAngle vecOldAngles = CurrentViewAngles(); int iCurrentViewID = g_CurrentViewID; int iRecursionLevel = g_pPortalRender->GetViewRecursionLevel(); Assert( iRecursionLevel > 0 ); //get references to reflection textures CTextureReference pPrimaryWaterReflectionTexture; pPrimaryWaterReflectionTexture.Init( GetWaterReflectionTexture() ); CTextureReference pReplacementWaterReflectionTexture; pReplacementWaterReflectionTexture.Init( portalrendertargets->GetWaterReflectionTextureForStencilDepth( iRecursionLevel ) ); //get references to refraction textures CTextureReference pPrimaryWaterRefractionTexture; pPrimaryWaterRefractionTexture.Init( GetWaterRefractionTexture() ); CTextureReference pReplacementWaterRefractionTexture; pReplacementWaterRefractionTexture.Init( portalrendertargets->GetWaterRefractionTextureForStencilDepth( iRecursionLevel ) ); //swap texture contents for the primary render targets with those we set aside for this recursion level if( pReplacementWaterReflectionTexture != NULL ) pPrimaryWaterReflectionTexture->SwapContents( pReplacementWaterReflectionTexture ); if( pReplacementWaterRefractionTexture != NULL ) pPrimaryWaterRefractionTexture->SwapContents( pReplacementWaterRefractionTexture ); bool bDrew3dSkybox = false; SkyboxVisibility_t nSkyboxVisible = SKYBOX_NOT_VISIBLE; int iClearFlags = 0; Draw3dSkyboxworld_Portal( view, iClearFlags, bDrew3dSkybox, nSkyboxVisible ); bool drawSkybox = r_skybox.GetBool(); if ( bDrew3dSkybox || ( nSkyboxVisible == SKYBOX_NOT_VISIBLE ) ) { drawSkybox = false; } //generate unique view ID's for each stencil view view_id_t iNewViewID = (view_id_t)g_pPortalRender->GetCurrentViewId(); SetupCurrentView( view.origin, view.angles, (view_id_t)iNewViewID ); // update vis data unsigned int visFlags; SetupVis( view, visFlags, pCustomVisibility ); VisibleFogVolumeInfo_t fogInfo; if( g_pPortalRender->GetViewRecursionLevel() == 0 ) { render->GetVisibleFogVolume( view.origin, &fogInfo ); } else { render->GetVisibleFogVolume( g_pPortalRender->GetExitPortalFogOrigin(), &fogInfo ); } WaterRenderInfo_t waterInfo; DetermineWaterRenderInfo( fogInfo, waterInfo ); if ( waterInfo.m_bCheapWater ) { cplane_t glassReflectionPlane; if ( IsReflectiveGlassInView( viewIn, glassReflectionPlane ) ) { CRefPtr pGlassReflectionView = new CReflectiveGlassView( this ); pGlassReflectionView->Setup( viewIn, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR | VIEW_CLEAR_OBEY_STENCIL, drawSkybox, fogInfo, waterInfo, glassReflectionPlane ); AddViewToScene( pGlassReflectionView ); CRefPtr pGlassRefractionView = new CRefractiveGlassView( this ); pGlassRefractionView->Setup( viewIn, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR | VIEW_CLEAR_OBEY_STENCIL, drawSkybox, fogInfo, waterInfo, glassReflectionPlane ); AddViewToScene( pGlassRefractionView ); } CSimpleWorldView *pClientView = new CSimpleWorldView( this ); pClientView->Setup( view, VIEW_CLEAR_OBEY_STENCIL, drawSkybox, fogInfo, waterInfo, pCustomVisibility ); AddViewToScene( pClientView ); SafeRelease( pClientView ); } else { // We can see water of some sort if ( !fogInfo.m_bEyeInFogVolume ) { CRefPtr pAboveWaterView = new CAboveWaterView( this ); pAboveWaterView->Setup( viewIn, drawSkybox, fogInfo, waterInfo ); AddViewToScene( pAboveWaterView ); } else { CRefPtr pUnderWaterView = new CUnderWaterView( this ); pUnderWaterView->Setup( viewIn, drawSkybox, fogInfo, waterInfo ); AddViewToScene( pUnderWaterView ); } } // Disable fog for the rest of the stuff DisableFog(); CGlowOverlay::DrawOverlays( view.m_bCacheFullSceneState ); // Draw rain.. DrawPrecipitation(); //prerender version only // issue the pixel visibility tests PixelVisibility_EndCurrentView(); // Make sure sound doesn't stutter engine->Sound_ExtraUpdate(); // Debugging info goes over the top CDebugViewRender::Draw3DDebuggingInfo( view ); // Return to the previous view SetupCurrentView( vecOldOrigin, vecOldAngles, (view_id_t)iCurrentViewID ); g_CurrentViewID = iCurrentViewID; //just in case the cast to view_id_t screwed up the id # //swap back the water render targets if( pReplacementWaterReflectionTexture != NULL ) pPrimaryWaterReflectionTexture->SwapContents( pReplacementWaterReflectionTexture ); if( pReplacementWaterRefractionTexture != NULL ) pPrimaryWaterRefractionTexture->SwapContents( pReplacementWaterRefractionTexture ); } void CViewRender::Draw3dSkyboxworld_Portal( const CViewSetup &view, int &nClearFlags, bool &bDrew3dSkybox, SkyboxVisibility_t &nSkyboxVisible, ITexture *pRenderTarget ) { CRefPtr pSkyView = new CPortalSkyboxView( this ); if ( ( bDrew3dSkybox = pSkyView->Setup( view, &nClearFlags, &nSkyboxVisible, pRenderTarget ) ) == true ) { AddViewToScene( pSkyView ); } } #endif //PORTAL //----------------------------------------------------------------------------- // Methods related to controlling the cheap water distance //----------------------------------------------------------------------------- void CViewRender::SetCheapWaterStartDistance( float flCheapWaterStartDistance ) { m_flCheapWaterStartDistance = flCheapWaterStartDistance; } void CViewRender::SetCheapWaterEndDistance( float flCheapWaterEndDistance ) { m_flCheapWaterEndDistance = flCheapWaterEndDistance; } void CViewRender::GetWaterLODParams( float &flCheapWaterStartDistance, float &flCheapWaterEndDistance ) { flCheapWaterStartDistance = m_flCheapWaterStartDistance; flCheapWaterEndDistance = m_flCheapWaterEndDistance; } //----------------------------------------------------------------------------- // Purpose: // Input : &view - // &introData - //----------------------------------------------------------------------------- void CViewRender::ViewDrawScene_Intro( const CViewSetup &viewRender, int nClearFlags, const IntroData_t &introData ) { VPROF( "CViewRender::ViewDrawScene" ); CMatRenderContextPtr pRenderContext( materials ); // this allows the refract texture to be updated once per *scene* on 360 // (e.g. once for a monitor scene and once for the main scene) g_viewscene_refractUpdateFrame = gpGlobals->framecount - 1; // ----------------------------------------------------------------------- // Set the clear color to black since we are going to be adding up things // in the frame buffer. // ----------------------------------------------------------------------- // Clear alpha to 255 so that masking with the vortigaunts (0) works properly. pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); // ----------------------------------------------------------------------- // Draw the primary scene and copy it to the first framebuffer texture // ----------------------------------------------------------------------- unsigned int visFlags; // NOTE: We only increment this once since time doesn't move forward. ParticleMgr()->IncrementFrameCode(); if( introData.m_bDrawPrimary ) { CViewSetup playerView( viewRender ); playerView.origin = introData.m_vecCameraView; playerView.angles = introData.m_vecCameraViewAngles; if ( introData.m_playerViewFOV ) { playerView.fov = ScaleFOVByWidthRatio( introData.m_playerViewFOV, engine->GetScreenAspectRatio() / ( 4.0f / 3.0f ) ); } g_pClientShadowMgr->PreRender(); // Shadowed flashlights supported on ps_2_b and up... if ( r_flashlightdepthtexture.GetBool() ) { g_pClientShadowMgr->ComputeShadowDepthTextures( playerView ); } SetupCurrentView( playerView.origin, playerView.angles, VIEW_INTRO_PLAYER ); // Invoke pre-render methods IGameSystem::PreRenderAllSystems(); // Start view, clear frame/z buffer if necessary SetupVis( playerView, visFlags ); render->Push3DView( playerView, VIEW_CLEAR_COLOR | VIEW_CLEAR_DEPTH, NULL, GetFrustum() ); DrawWorldAndEntities( true /* drawSkybox */, playerView, VIEW_CLEAR_COLOR | VIEW_CLEAR_DEPTH ); render->PopView( GetFrustum() ); // Free shadow depth textures for use in future view if ( r_flashlightdepthtexture.GetBool() ) { g_pClientShadowMgr->UnlockAllShadowDepthTextures(); } } else { pRenderContext->ClearBuffers( true, true ); } Rect_t actualRect; UpdateScreenEffectTexture( 0, viewRender.x, viewRender.y, viewRender.width, viewRender.height, false, &actualRect ); g_pClientShadowMgr->PreRender(); // Shadowed flashlights supported on ps_2_b and up... if ( r_flashlightdepthtexture.GetBool() ) { g_pClientShadowMgr->ComputeShadowDepthTextures( viewRender ); } // ----------------------------------------------------------------------- // Draw the secondary scene and copy it to the second framebuffer texture // ----------------------------------------------------------------------- SetupCurrentView( viewRender.origin, viewRender.angles, VIEW_INTRO_CAMERA ); // Invoke pre-render methods IGameSystem::PreRenderAllSystems(); // Start view, clear frame/z buffer if necessary SetupVis( viewRender, visFlags ); // Clear alpha to 255 so that masking with the vortigaunts (0) works properly. pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); DrawWorldAndEntities( true /* drawSkybox */, viewRender, VIEW_CLEAR_COLOR | VIEW_CLEAR_DEPTH ); UpdateScreenEffectTexture( 1, viewRender.x, viewRender.y, viewRender.width, viewRender.height ); // ----------------------------------------------------------------------- // Draw quads on the screen for each screenspace pass. // ----------------------------------------------------------------------- // Find the material that we use to render the overlays IMaterial *pOverlayMaterial = materials->FindMaterial( "scripted/intro_screenspaceeffect", TEXTURE_GROUP_OTHER ); IMaterialVar *pModeVar = pOverlayMaterial->FindVar( "$mode", NULL ); IMaterialVar *pAlphaVar = pOverlayMaterial->FindVar( "$alpha", NULL ); pRenderContext->ClearBuffers( true, true ); pRenderContext->MatrixMode( MATERIAL_VIEW ); pRenderContext->PushMatrix(); pRenderContext->LoadIdentity(); pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PushMatrix(); pRenderContext->LoadIdentity(); int passID; for( passID = 0; passID < introData.m_Passes.Count(); passID++ ) { const IntroDataBlendPass_t& pass = introData.m_Passes[passID]; if ( pass.m_Alpha == 0 ) continue; // Pick one of the blend modes for the material. if ( pass.m_BlendMode >= 0 && pass.m_BlendMode <= 9 ) { pModeVar->SetIntValue( pass.m_BlendMode ); } else { Assert(0); } // Set the alpha value for the material. pAlphaVar->SetFloatValue( pass.m_Alpha ); // Draw a quad for this pass. ITexture *pTexture = GetFullFrameFrameBufferTexture( 0 ); pRenderContext->DrawScreenSpaceRectangle( pOverlayMaterial, 0, 0, viewRender.width, viewRender.height, actualRect.x, actualRect.y, actualRect.x+actualRect.width-1, actualRect.y+actualRect.height-1, pTexture->GetActualWidth(), pTexture->GetActualHeight() ); } pRenderContext->MatrixMode( MATERIAL_VIEW ); pRenderContext->PopMatrix(); pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PopMatrix(); // Draw the starfield // FIXME // blur? // Disable fog for the rest of the stuff DisableFog(); // Here are the overlays... CGlowOverlay::DrawOverlays( viewRender.m_bCacheFullSceneState ); // issue the pixel visibility tests PixelVisibility_EndCurrentView(); // And here are the screen-space effects PerformScreenSpaceEffects( 0, 0, viewRender.width, viewRender.height ); // Make sure sound doesn't stutter engine->Sound_ExtraUpdate(); // Debugging info goes over the top CDebugViewRender::Draw3DDebuggingInfo( viewRender ); // Let the particle manager simulate things that haven't been simulated. ParticleMgr()->PostRender(); FinishCurrentView(); // Free shadow depth textures for use in future view if ( r_flashlightdepthtexture.GetBool() ) { g_pClientShadowMgr->UnlockAllShadowDepthTextures(); } } //----------------------------------------------------------------------------- // Purpose: Sets up scene and renders camera view // Input : cameraNum - // &cameraView // *localPlayer - // x - // y - // width - // height - // highend - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CViewRender::DrawOneMonitor( ITexture *pRenderTarget, int cameraNum, C_PointCamera *pCameraEnt, const CViewSetup &cameraView, C_BasePlayer *localPlayer, int x, int y, int width, int height ) { #ifdef USE_MONITORS VPROF_INCREMENT_COUNTER( "cameras rendered", 1 ); // Setup fog state for the camera. fogparams_t oldFogParams; float flOldZFar = 0.0f; bool fogEnabled = pCameraEnt->IsFogEnabled(); CViewSetup monitorView = cameraView; fogparams_t *pFogParams = NULL; if ( fogEnabled ) { if ( !localPlayer ) return false; pFogParams = localPlayer->GetFogParams(); // Save old fog data. oldFogParams = *pFogParams; flOldZFar = cameraView.zFar; pFogParams->enable = true; pFogParams->start = pCameraEnt->GetFogStart(); pFogParams->end = pCameraEnt->GetFogEnd(); pFogParams->farz = pCameraEnt->GetFogEnd(); pFogParams->maxdensity = pCameraEnt->GetFogMaxDensity(); unsigned char r, g, b; pCameraEnt->GetFogColor( r, g, b ); pFogParams->colorPrimary.SetR( r ); pFogParams->colorPrimary.SetG( g ); pFogParams->colorPrimary.SetB( b ); monitorView.zFar = pCameraEnt->GetFogEnd(); } monitorView.width = width; monitorView.height = height; monitorView.x = x; monitorView.y = y; monitorView.origin = pCameraEnt->GetAbsOrigin(); monitorView.angles = pCameraEnt->GetAbsAngles(); monitorView.fov = pCameraEnt->GetFOV(); monitorView.m_bOrtho = false; monitorView.m_flAspectRatio = pCameraEnt->UseScreenAspectRatio() ? 0.0f : 1.0f; monitorView.m_bViewToProjectionOverride = false; // @MULTICORE (toml 8/11/2006): this should be a renderer.... Frustum frustum; render->Push3DView( monitorView, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, pRenderTarget, (VPlane *)frustum ); ViewDrawScene( false, SKYBOX_2DSKYBOX_VISIBLE, monitorView, 0, VIEW_MONITOR ); render->PopView( frustum ); // Reset the world fog parameters. if ( fogEnabled ) { if ( pFogParams ) { *pFogParams = oldFogParams; } monitorView.zFar = flOldZFar; } #endif // USE_MONITORS return true; } void CViewRender::DrawMonitors( const CViewSetup &cameraView ) { #ifdef PORTAL g_pPortalRender->DrawPortalsToTextures( this, cameraView ); #endif #ifdef USE_MONITORS // Early out if no cameras C_PointCamera *pCameraEnt = GetPointCameraList(); if ( !pCameraEnt ) return; tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); #ifdef _DEBUG g_bRenderingCameraView = true; #endif // FIXME: this should check for the ability to do a render target maybe instead. // FIXME: shouldn't have to truck through all of the visible entities for this!!!! ITexture *pCameraTarget = GetCameraTexture(); int width = pCameraTarget->GetActualWidth(); int height = pCameraTarget->GetActualHeight(); C_BasePlayer *player = C_BasePlayer::GetLocalPlayer(); int cameraNum; for ( cameraNum = 0; pCameraEnt != NULL; pCameraEnt = pCameraEnt->m_pNext ) { if ( !pCameraEnt->IsActive() || pCameraEnt->IsDormant() ) continue; if ( !DrawOneMonitor( pCameraTarget, cameraNum, pCameraEnt, cameraView, player, 0, 0, width, height ) ) continue; ++cameraNum; } if ( IsX360() && cameraNum > 0 ) { // resolve render target to system memory texture // resolving *after* all monitors drawn to ensure a single blit using fastest resolve path CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PushRenderTargetAndViewport( pCameraTarget ); pRenderContext->CopyRenderTargetToTextureEx( pCameraTarget, 0, NULL, NULL ); pRenderContext->PopRenderTargetAndViewport(); } #ifdef _DEBUG g_bRenderingCameraView = false; #endif #endif // USE_MONITORS } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- ClientWorldListInfo_t *ClientWorldListInfo_t::AllocPooled( const ClientWorldListInfo_t &exemplar ) { size_t nBytes = AlignValue( ( exemplar.m_LeafCount * ((sizeof(LeafIndex_t) * 2) + sizeof(LeafFogVolume_t)) ), 4096 ); ClientWorldListInfo_t *pResult = gm_Pool.GetObject(); byte *pMemory = (byte *)pResult->m_pLeafList; if ( pMemory ) { // Previously allocated, add a reference. Otherwise comes out of GetObject as a new object with a refcount of 1 pResult->AddRef(); } if ( !pMemory || _msize( pMemory ) < nBytes ) { pMemory = (byte *)realloc( pMemory, nBytes ); } pResult->m_pLeafList = (LeafIndex_t*)pMemory; pResult->m_pLeafFogVolume = (LeafFogVolume_t*)( pMemory + exemplar.m_LeafCount * sizeof(LeafIndex_t) ); pResult->m_pActualLeafIndex = (LeafIndex_t*)( (byte *)( pResult->m_pLeafFogVolume ) + exemplar.m_LeafCount * sizeof(LeafFogVolume_t) ); pResult->m_bPooledAlloc = true; return pResult; } bool ClientWorldListInfo_t::OnFinalRelease() { if ( m_bPooledAlloc ) { Assert( m_pLeafList ); gm_Pool.PutObject( this ); return false; } return true; } //----------------------------------------------------------------------------- // Constructor //----------------------------------------------------------------------------- CBase3dView::CBase3dView( CViewRender *pMainView ) : m_pMainView( pMainView ), m_Frustum( pMainView->m_Frustum ) { } //----------------------------------------------------------------------------- // Purpose: // Input : *pEnt - // Output : int //----------------------------------------------------------------------------- VPlane* CBase3dView::GetFrustum() { // The frustum is only valid while in a RenderView call. // @MULTICORE (toml 8/11/2006): reimplement this when ready -- Assert(g_bRenderingView || g_bRenderingCameraView || g_bRenderingScreenshot); return m_Frustum; } CObjectPool ClientWorldListInfo_t::gm_Pool; //----------------------------------------------------------------------------- // Base class for 3d views //----------------------------------------------------------------------------- CRendering3dView::CRendering3dView(CViewRender *pMainView) : CBase3dView( pMainView ), m_pWorldRenderList( NULL ), m_pRenderablesList( NULL ), m_pWorldListInfo( NULL ), m_pCustomVisibility( NULL ), m_DrawFlags( 0 ), m_ClearFlags( 0 ) { } //----------------------------------------------------------------------------- // Sort entities in a back-to-front ordering //----------------------------------------------------------------------------- void CRendering3dView::Setup( const CViewSetup &setup ) { // @MULTICORE (toml 8/15/2006): don't reset if parameters don't require it. For now, just reset memcpy( static_cast(this), &setup, sizeof( setup ) ); ReleaseLists(); m_pRenderablesList = new CClientRenderablesList; m_pCustomVisibility = NULL; } //----------------------------------------------------------------------------- // Sort entities in a back-to-front ordering //----------------------------------------------------------------------------- void CRendering3dView::ReleaseLists() { SafeRelease( m_pWorldRenderList ); SafeRelease( m_pRenderablesList ); SafeRelease( m_pWorldListInfo ); m_pCustomVisibility = NULL; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CRendering3dView::SetupRenderablesList( int viewID ) { VPROF( "CViewRender::SetupRenderablesList" ); // Clear the list. int i; for( i=0; i < RENDER_GROUP_COUNT; i++ ) { m_pRenderablesList->m_RenderGroupCounts[i] = 0; } // Now collate the entities in the leaves. if( m_pMainView->ShouldDrawEntities() ) { // Precache information used commonly in CollateRenderables SetupRenderInfo_t setupInfo; setupInfo.m_pWorldListInfo = m_pWorldListInfo; setupInfo.m_nRenderFrame = m_pMainView->BuildRenderablesListsNumber(); // only one incremented? setupInfo.m_nDetailBuildFrame = m_pMainView->BuildWorldListsNumber(); // setupInfo.m_pRenderList = m_pRenderablesList; setupInfo.m_bDrawDetailObjects = g_pClientMode->ShouldDrawDetailObjects() && r_DrawDetailProps.GetInt(); setupInfo.m_bDrawTranslucentObjects = (viewID != VIEW_SHADOW_DEPTH_TEXTURE); setupInfo.m_vecRenderOrigin = origin; setupInfo.m_vecRenderForward = CurrentViewForward(); float fMaxDist = cl_maxrenderable_dist.GetFloat(); // Shadowing light typically has a smaller farz than cl_maxrenderable_dist setupInfo.m_flRenderDistSq = (viewID == VIEW_SHADOW_DEPTH_TEXTURE) ? MIN(zFar, fMaxDist) : fMaxDist; setupInfo.m_flRenderDistSq *= setupInfo.m_flRenderDistSq; ClientLeafSystem()->BuildRenderablesList( setupInfo ); } } //----------------------------------------------------------------------------- // Purpose: Builds lists of things to render in the world, called once per view //----------------------------------------------------------------------------- void CRendering3dView::UpdateRenderablesOpacity() { // Compute the prop opacity based on the view position and fov zoom scale float flFactor = 1.0f; C_BasePlayer *pLocal = C_BasePlayer::GetLocalPlayer(); if ( pLocal ) { flFactor = pLocal->GetFOVDistanceAdjustFactor(); } if ( cl_leveloverview.GetFloat() > 0 ) { // disable prop fading flFactor = -1; } // When zoomed in, tweak the opacity to stay visible from further away staticpropmgr->ComputePropOpacity( origin, flFactor ); // Build a list of detail props to render DetailObjectSystem()->BuildDetailObjectRenderLists( origin ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- // Kinda awkward...three optional parameters at the end... void CRendering3dView::BuildWorldRenderLists( bool bDrawEntities, int iForceViewLeaf /* = -1 */, bool bUseCacheIfEnabled /* = true */, bool bShadowDepth /* = false */, float *pReflectionWaterHeight /*= NULL*/ ) { VPROF_BUDGET( "BuildWorldRenderLists", VPROF_BUDGETGROUP_WORLD_RENDERING ); // @MULTICORE (toml 8/18/2006): to address.... extern void UpdateClientRenderableInPVSStatus(); UpdateClientRenderableInPVSStatus(); Assert( !m_pWorldRenderList && !m_pWorldListInfo); m_pMainView->IncWorldListsNumber(); // Override vis data if specified this render, otherwise use default behavior with NULL VisOverrideData_t* pVisData = ( m_pCustomVisibility && m_pCustomVisibility->m_VisData.m_fDistToAreaPortalTolerance != FLT_MAX ) ? &m_pCustomVisibility->m_VisData : NULL; bool bUseCache = ( bUseCacheIfEnabled && r_worldlistcache.GetBool() ); if ( !bUseCache || pVisData || !g_WorldListCache.Find( *this, &m_pWorldRenderList, &m_pWorldListInfo ) ) { // @MULTICORE (toml 8/18/2006): when make parallel, will have to change caching to be atomic, where follow ons receive a pointer to a list that is not yet built m_pWorldRenderList = render->CreateWorldList(); m_pWorldListInfo = new ClientWorldListInfo_t; render->BuildWorldLists( m_pWorldRenderList, m_pWorldListInfo, ( m_pCustomVisibility ) ? m_pCustomVisibility->m_iForceViewLeaf : iForceViewLeaf, pVisData, bShadowDepth, pReflectionWaterHeight ); if ( bUseCache && !pVisData ) { g_WorldListCache.Add( *this, m_pWorldRenderList, m_pWorldListInfo ); } } if ( bDrawEntities ) { UpdateRenderablesOpacity(); } } //----------------------------------------------------------------------------- // Purpose: Computes the actual world list info based on the render flags //----------------------------------------------------------------------------- void CRendering3dView::PruneWorldListInfo() { // Drawing everything? Just return the world list info as-is int nWaterDrawFlags = m_DrawFlags & (DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER); if ( nWaterDrawFlags == (DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER) ) { return; } ClientWorldListInfo_t *pNewInfo; // Only allocate memory if actually will draw something if ( m_pWorldListInfo->m_LeafCount > 0 && nWaterDrawFlags ) { pNewInfo = ClientWorldListInfo_t::AllocPooled( *m_pWorldListInfo ); } else { pNewInfo = new ClientWorldListInfo_t; } pNewInfo->m_ViewFogVolume = m_pWorldListInfo->m_ViewFogVolume; pNewInfo->m_LeafCount = 0; // Not drawing anything? Then don't bother with renderable lists if ( nWaterDrawFlags != 0 ) { // Create a sub-list based on the actual leaves being rendered bool bRenderingUnderwater = (nWaterDrawFlags & DF_RENDER_UNDERWATER) != 0; for ( int i = 0; i < m_pWorldListInfo->m_LeafCount; ++i ) { bool bLeafIsUnderwater = ( m_pWorldListInfo->m_pLeafFogVolume[i] != -1 ); if ( bRenderingUnderwater == bLeafIsUnderwater ) { pNewInfo->m_pLeafList[ pNewInfo->m_LeafCount ] = m_pWorldListInfo->m_pLeafList[ i ]; pNewInfo->m_pLeafFogVolume[ pNewInfo->m_LeafCount ] = m_pWorldListInfo->m_pLeafFogVolume[ i ]; pNewInfo->m_pActualLeafIndex[ pNewInfo->m_LeafCount ] = i; ++pNewInfo->m_LeafCount; } } } m_pWorldListInfo->Release(); m_pWorldListInfo = pNewInfo; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- static inline void UpdateBrushModelLightmap( IClientRenderable *pEnt ) { model_t *pModel = ( model_t * )pEnt->GetModel(); render->UpdateBrushModelLightmap( pModel, pEnt ); } void CRendering3dView::BuildRenderableRenderLists( int viewID ) { MDLCACHE_CRITICAL_SECTION(); if ( viewID != VIEW_SHADOW_DEPTH_TEXTURE ) { render->BeginUpdateLightmaps(); } m_pMainView->IncRenderablesListsNumber(); ClientWorldListInfo_t& info = *m_pWorldListInfo; // For better sorting, find out the leaf *nearest* to the camera // and render translucent objects as if they are in that leaf. if( m_pMainView->ShouldDrawEntities() && ( viewID != VIEW_SHADOW_DEPTH_TEXTURE ) ) { ClientLeafSystem()->ComputeTranslucentRenderLeaf( info.m_LeafCount, info.m_pLeafList, info.m_pLeafFogVolume, m_pMainView->BuildRenderablesListsNumber(), viewID ); } SetupRenderablesList( viewID ); if ( viewID == VIEW_MAIN ) { StudioStats_FindClosestEntity( m_pRenderablesList ); } if ( viewID != VIEW_SHADOW_DEPTH_TEXTURE ) { // update lightmap on brush models if necessary CClientRenderablesList::CEntry *pEntities = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_OPAQUE_BRUSH]; int nOpaque = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_OPAQUE_BRUSH]; int i; for( i=0; i < nOpaque; ++i ) { Assert(pEntities[i].m_TwoPass==0); UpdateBrushModelLightmap( pEntities[i].m_pRenderable ); } // update lightmap on brush models if necessary pEntities = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_TRANSLUCENT_ENTITY]; int nTranslucent = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_TRANSLUCENT_ENTITY]; for( i=0; i < nTranslucent; ++i ) { const model_t *pModel = pEntities[i].m_pRenderable->GetModel(); if( pModel ) { int nModelType = modelinfo->GetModelType( pModel ); if( nModelType == mod_brush ) { UpdateBrushModelLightmap( pEntities[i].m_pRenderable ); } } } render->EndUpdateLightmaps(); } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CRendering3dView::DrawWorld( float waterZAdjust ) { VPROF_INCREMENT_COUNTER( "RenderWorld", 1 ); VPROF_BUDGET( "DrawWorld", VPROF_BUDGETGROUP_WORLD_RENDERING ); if( !r_drawopaqueworld.GetBool() ) { return; } unsigned long engineFlags = BuildEngineDrawWorldListFlags( m_DrawFlags ); render->DrawWorldLists( m_pWorldRenderList, engineFlags, waterZAdjust ); } CMaterialReference g_material_WriteZ; //init'ed on by CViewRender::Init() //----------------------------------------------------------------------------- // Fakes per-entity clip planes on cards that don't support user clip planes. // Achieves the effect by drawing an invisible box that writes to the depth buffer // around the clipped area. It's not perfect, but better than nothing. //----------------------------------------------------------------------------- static void DrawClippedDepthBox( IClientRenderable *pEnt, float *pClipPlane ) { //#define DEBUG_DRAWCLIPPEDDEPTHBOX //uncomment to draw the depth box as a colorful box static const int iQuads[6][5] = { { 0, 4, 6, 2, 0 }, //always an extra copy of first index at end to make some algorithms simpler { 3, 7, 5, 1, 3 }, { 1, 5, 4, 0, 1 }, { 2, 6, 7, 3, 2 }, { 0, 2, 3, 1, 0 }, { 5, 7, 6, 4, 5 } }; static const int iLines[12][2] = { { 0, 1 }, { 0, 2 }, { 0, 4 }, { 1, 3 }, { 1, 5 }, { 2, 3 }, { 2, 6 }, { 3, 7 }, { 4, 6 }, { 4, 5 }, { 5, 7 }, { 6, 7 } }; #ifdef DEBUG_DRAWCLIPPEDDEPTHBOX static const float fColors[6][3] = { { 1.0f, 0.0f, 0.0f }, { 0.0f, 1.0f, 1.0f }, { 0.0f, 1.0f, 0.0f }, { 1.0f, 0.0f, 1.0f }, { 0.0f, 0.0f, 1.0f }, { 1.0f, 1.0f, 0.0f } }; #endif Vector vNormal = *(Vector *)pClipPlane; float fPlaneDist = pClipPlane[3]; Vector vMins, vMaxs; pEnt->GetRenderBounds( vMins, vMaxs ); Vector vOrigin = pEnt->GetRenderOrigin(); QAngle qAngles = pEnt->GetRenderAngles(); Vector vForward, vUp, vRight; AngleVectors( qAngles, &vForward, &vRight, &vUp ); Vector vPoints[8]; vPoints[0] = vOrigin + (vForward * vMins.x) + (vRight * vMins.y) + (vUp * vMins.z); vPoints[1] = vOrigin + (vForward * vMaxs.x) + (vRight * vMins.y) + (vUp * vMins.z); vPoints[2] = vOrigin + (vForward * vMins.x) + (vRight * vMaxs.y) + (vUp * vMins.z); vPoints[3] = vOrigin + (vForward * vMaxs.x) + (vRight * vMaxs.y) + (vUp * vMins.z); vPoints[4] = vOrigin + (vForward * vMins.x) + (vRight * vMins.y) + (vUp * vMaxs.z); vPoints[5] = vOrigin + (vForward * vMaxs.x) + (vRight * vMins.y) + (vUp * vMaxs.z); vPoints[6] = vOrigin + (vForward * vMins.x) + (vRight * vMaxs.y) + (vUp * vMaxs.z); vPoints[7] = vOrigin + (vForward * vMaxs.x) + (vRight * vMaxs.y) + (vUp * vMaxs.z); int iClipped[8]; float fDists[8]; for( int i = 0; i != 8; ++i ) { fDists[i] = vPoints[i].Dot( vNormal ) - fPlaneDist; iClipped[i] = (fDists[i] > 0.0f) ? 1 : 0; } Vector vSplitPoints[8][8]; //obviously there are only 12 lines, not 64 lines or 64 split points, but the indexing is way easier like this int iLineStates[8][8]; //0 = unclipped, 2 = wholly clipped, 3 = first point clipped, 4 = second point clipped //categorize lines and generate split points where needed for( int i = 0; i != 12; ++i ) { const int *pPoints = iLines[i]; int iLineState = (iClipped[pPoints[0]] + iClipped[pPoints[1]]); if( iLineState != 1 ) //either both points are clipped, or neither are clipped { iLineStates[pPoints[0]][pPoints[1]] = iLineStates[pPoints[1]][pPoints[0]] = iLineState; } else { //one point is clipped, the other is not if( iClipped[pPoints[0]] == 1 ) { //first point was clipped, index 1 has the negative distance float fInvTotalDist = 1.0f / (fDists[pPoints[0]] - fDists[pPoints[1]]); vSplitPoints[pPoints[0]][pPoints[1]] = vSplitPoints[pPoints[1]][pPoints[0]] = (vPoints[pPoints[1]] * (fDists[pPoints[0]] * fInvTotalDist)) - (vPoints[pPoints[0]] * (fDists[pPoints[1]] * fInvTotalDist)); Assert( fabs( vNormal.Dot( vSplitPoints[pPoints[0]][pPoints[1]] ) - fPlaneDist ) < 0.01f ); iLineStates[pPoints[0]][pPoints[1]] = 3; iLineStates[pPoints[1]][pPoints[0]] = 4; } else { //second point was clipped, index 0 has the negative distance float fInvTotalDist = 1.0f / (fDists[pPoints[1]] - fDists[pPoints[0]]); vSplitPoints[pPoints[0]][pPoints[1]] = vSplitPoints[pPoints[1]][pPoints[0]] = (vPoints[pPoints[0]] * (fDists[pPoints[1]] * fInvTotalDist)) - (vPoints[pPoints[1]] * (fDists[pPoints[0]] * fInvTotalDist)); Assert( fabs( vNormal.Dot( vSplitPoints[pPoints[0]][pPoints[1]] ) - fPlaneDist ) < 0.01f ); iLineStates[pPoints[0]][pPoints[1]] = 4; iLineStates[pPoints[1]][pPoints[0]] = 3; } } } CMatRenderContextPtr pRenderContext( materials ); #ifdef DEBUG_DRAWCLIPPEDDEPTHBOX pRenderContext->Bind( materials->FindMaterial( "debug/debugvertexcolor", TEXTURE_GROUP_OTHER ), NULL ); #else pRenderContext->Bind( g_material_WriteZ, NULL ); #endif CMeshBuilder meshBuilder; IMesh* pMesh = pRenderContext->GetDynamicMesh( false ); meshBuilder.Begin( pMesh, MATERIAL_TRIANGLES, 18 ); //6 sides, possible one cut per side. Any side is capable of having 3 tri's. Lots of padding for things that aren't possible //going to draw as a collection of triangles, arranged as a triangle fan on each side for( int i = 0; i != 6; ++i ) { const int *pPoints = iQuads[i]; //can't start the fan on a wholly clipped line, so seek to one that isn't int j = 0; do { if( iLineStates[pPoints[j]][pPoints[j+1]] != 2 ) //at least part of this line will be drawn break; ++j; } while( j != 3 ); if( j == 3 ) //not enough lines to even form a triangle continue; float *pStartPoint = 0; float *pTriangleFanPoints[4]; //at most, one of our fans will have 5 points total, with the first point being stored separately as pStartPoint int iTriangleFanPointCount = 1; //the switch below creates the first for sure //figure out how to start the fan switch( iLineStates[pPoints[j]][pPoints[j+1]] ) { case 0: //uncut pStartPoint = &vPoints[pPoints[j]].x; pTriangleFanPoints[0] = &vPoints[pPoints[j+1]].x; break; case 4: //second index was clipped pStartPoint = &vPoints[pPoints[j]].x; pTriangleFanPoints[0] = &vSplitPoints[pPoints[j]][pPoints[j+1]].x; break; case 3: //first index was clipped pStartPoint = &vSplitPoints[pPoints[j]][pPoints[j+1]].x; pTriangleFanPoints[0] = &vPoints[pPoints[j + 1]].x; break; default: Assert( false ); break; }; for( ++j; j != 3; ++j ) //add end points for the rest of the indices, we're assembling a triangle fan { switch( iLineStates[pPoints[j]][pPoints[j+1]] ) { case 0: //uncut line, normal endpoint pTriangleFanPoints[iTriangleFanPointCount] = &vPoints[pPoints[j+1]].x; ++iTriangleFanPointCount; break; case 2: //wholly cut line, no endpoint break; case 3: //first point is clipped, normal endpoint //special case, adds start and end point pTriangleFanPoints[iTriangleFanPointCount] = &vSplitPoints[pPoints[j]][pPoints[j+1]].x; ++iTriangleFanPointCount; pTriangleFanPoints[iTriangleFanPointCount] = &vPoints[pPoints[j+1]].x; ++iTriangleFanPointCount; break; case 4: //second point is clipped pTriangleFanPoints[iTriangleFanPointCount] = &vSplitPoints[pPoints[j]][pPoints[j+1]].x; ++iTriangleFanPointCount; break; default: Assert( false ); break; }; } //special case endpoints, half-clipped lines have a connecting line between them and the next line (first line in this case) switch( iLineStates[pPoints[j]][pPoints[j+1]] ) { case 3: case 4: pTriangleFanPoints[iTriangleFanPointCount] = &vSplitPoints[pPoints[j]][pPoints[j+1]].x; ++iTriangleFanPointCount; break; }; Assert( iTriangleFanPointCount <= 4 ); //add the fan to the mesh int iLoopStop = iTriangleFanPointCount - 1; for( int k = 0; k != iLoopStop; ++k ) { meshBuilder.Position3fv( pStartPoint ); #ifdef DEBUG_DRAWCLIPPEDDEPTHBOX float fHalfColors[3] = { fColors[i][0] * 0.5f, fColors[i][1] * 0.5f, fColors[i][2] * 0.5f }; meshBuilder.Color3fv( fHalfColors ); #endif meshBuilder.AdvanceVertex(); meshBuilder.Position3fv( pTriangleFanPoints[k] ); #ifdef DEBUG_DRAWCLIPPEDDEPTHBOX meshBuilder.Color3fv( fColors[i] ); #endif meshBuilder.AdvanceVertex(); meshBuilder.Position3fv( pTriangleFanPoints[k+1] ); #ifdef DEBUG_DRAWCLIPPEDDEPTHBOX meshBuilder.Color3fv( fColors[i] ); #endif meshBuilder.AdvanceVertex(); } } meshBuilder.End(); pMesh->Draw(); pRenderContext->Flush( false ); } //----------------------------------------------------------------------------- // Draws all opaque renderables in leaves that were rendered //----------------------------------------------------------------------------- static inline void DrawOpaqueRenderable( IClientRenderable *pEnt, bool bTwoPass, ERenderDepthMode DepthMode, int nDefaultFlags = 0 ) { tmZone( TELEMETRY_LEVEL0, TMZF_NONE, "%s", __FUNCTION__ ); float color[3]; pEnt->GetColorModulation( color ); render->SetColorModulation( color ); int flags = nDefaultFlags | STUDIO_RENDER; if ( bTwoPass ) { flags |= STUDIO_TWOPASS; } if ( DepthMode == DEPTH_MODE_SHADOW ) { flags |= STUDIO_SHADOWDEPTHTEXTURE; } else if ( DepthMode == DEPTH_MODE_SSA0 ) { flags |= STUDIO_SSAODEPTHTEXTURE; } float *pRenderClipPlane = NULL; if( r_entityclips.GetBool() ) pRenderClipPlane = pEnt->GetRenderClipPlane(); if( pRenderClipPlane ) { CMatRenderContextPtr pRenderContext( materials ); if( !materials->UsingFastClipping() ) //do NOT change the fast clip plane mid-scene, depth problems result. Regular user clip planes are fine though pRenderContext->PushCustomClipPlane( pRenderClipPlane ); else DrawClippedDepthBox( pEnt, pRenderClipPlane ); Assert( view->GetCurrentlyDrawingEntity() == NULL ); view->SetCurrentlyDrawingEntity( pEnt->GetIClientUnknown()->GetBaseEntity() ); pEnt->DrawModel( flags ); view->SetCurrentlyDrawingEntity( NULL ); if( pRenderClipPlane && !materials->UsingFastClipping() ) pRenderContext->PopCustomClipPlane(); } else { Assert( view->GetCurrentlyDrawingEntity() == NULL ); view->SetCurrentlyDrawingEntity( pEnt->GetIClientUnknown()->GetBaseEntity() ); pEnt->DrawModel( flags ); view->SetCurrentlyDrawingEntity( NULL ); } } //------------------------------------- ConVar r_drawopaquestaticpropslast( "r_drawopaquestaticpropslast", "0", 0, "Whether opaque static props are rendered after non-npcs" ); #define DEBUG_BUCKETS 0 #if DEBUG_BUCKETS ConVar r_drawopaque_old( "r_drawopaque_old", "0", 0, "Whether old unbucketed technique is used" ); ConVar r_drawopaquesbucket( "r_drawopaquesbucket", "0", FCVAR_CHEAT, "Draw only specific bucket: positive - props, negative - ents" ); ConVar r_drawopaquesbucket_stats( "r_drawopaquesbucket_stats", "0", FCVAR_CHEAT, "Draw distribution of props/ents in the buckets" ); #endif static void SetupBonesOnBaseAnimating( C_BaseAnimating *&pBaseAnimating ) { pBaseAnimating->SetupBones( NULL, -1, -1, gpGlobals->curtime ); } static void DrawOpaqueRenderables_DrawBrushModels( CClientRenderablesList::CEntry *pEntitiesBegin, CClientRenderablesList::CEntry *pEntitiesEnd, ERenderDepthMode DepthMode ) { for( CClientRenderablesList::CEntry *itEntity = pEntitiesBegin; itEntity < pEntitiesEnd; ++ itEntity ) { Assert( !itEntity->m_TwoPass ); DrawOpaqueRenderable( itEntity->m_pRenderable, false, DepthMode ); } } static void DrawOpaqueRenderables_DrawStaticProps( CClientRenderablesList::CEntry *pEntitiesBegin, CClientRenderablesList::CEntry *pEntitiesEnd, ERenderDepthMode DepthMode ) { if ( pEntitiesEnd == pEntitiesBegin ) return; float one[4] = { 1.0f, 1.0f, 1.0f, 1.0f }; render->SetColorModulation( one ); render->SetBlend( 1.0f ); const int MAX_STATICS_PER_BATCH = 512; IClientRenderable *pStatics[ MAX_STATICS_PER_BATCH ]; int numScheduled = 0, numAvailable = MAX_STATICS_PER_BATCH; for( CClientRenderablesList::CEntry *itEntity = pEntitiesBegin; itEntity < pEntitiesEnd; ++ itEntity ) { if ( itEntity->m_pRenderable ) /**/; else continue; if ( g_pStudioStatsEntity != NULL && g_CurrentViewID == VIEW_MAIN && itEntity->m_pRenderable == g_pStudioStatsEntity ) { DrawOpaqueRenderable( itEntity->m_pRenderable, false, DepthMode, STUDIO_GENERATE_STATS ); continue; } pStatics[ numScheduled ++ ] = itEntity->m_pRenderable; if ( -- numAvailable > 0 ) continue; // place a hint for compiler to predict more common case in the loop staticpropmgr->DrawStaticProps( pStatics, numScheduled, DepthMode, vcollide_wireframe.GetBool() ); numScheduled = 0; numAvailable = MAX_STATICS_PER_BATCH; } if ( numScheduled ) staticpropmgr->DrawStaticProps( pStatics, numScheduled, DepthMode, vcollide_wireframe.GetBool() ); } static void DrawOpaqueRenderables_Range( CClientRenderablesList::CEntry *pEntitiesBegin, CClientRenderablesList::CEntry *pEntitiesEnd, ERenderDepthMode DepthMode ) { for( CClientRenderablesList::CEntry *itEntity = pEntitiesBegin; itEntity < pEntitiesEnd; ++ itEntity ) { if ( itEntity->m_pRenderable ) DrawOpaqueRenderable( itEntity->m_pRenderable, ( itEntity->m_TwoPass != 0 ), DepthMode ); } } void CRendering3dView::DrawOpaqueRenderables( ERenderDepthMode DepthMode ) { VPROF_BUDGET("CViewRender::DrawOpaqueRenderables", "DrawOpaqueRenderables" ); if( !r_drawopaquerenderables.GetBool() ) return; if( !m_pMainView->ShouldDrawEntities() ) return; render->SetBlend( 1 ); // // Prepare to iterate over all leaves that were visible, and draw opaque things in them. // RopeManager()->ResetRenderCache(); g_pParticleSystemMgr->ResetRenderCache(); //bool const bDrawopaquestaticpropslast = r_drawopaquestaticpropslast.GetBool(); // // First do the brush models // { CClientRenderablesList::CEntry *pEntitiesBegin, *pEntitiesEnd; pEntitiesBegin = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_OPAQUE_BRUSH]; pEntitiesEnd = pEntitiesBegin + m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_OPAQUE_BRUSH]; DrawOpaqueRenderables_DrawBrushModels( pEntitiesBegin, pEntitiesEnd, DepthMode ); } #if DEBUG_BUCKETS { con_nprint_s nxPrn = { 0 }; nxPrn.index = 16; nxPrn.time_to_live = -1; nxPrn.color[0] = 0.9f, nxPrn.color[1] = 1.0f, nxPrn.color[2] = 0.9f; nxPrn.fixed_width_font = true; engine->Con_NXPrintf( &nxPrn, "Draw Opaque Technique : NEW" ); if ( r_drawopaque_old.GetBool() ) { engine->Con_NXPrintf( &nxPrn, "Draw Opaque Technique : OLD" ); // now the static props { for ( int bucket = RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS - 1; bucket -- > 0; ) { CClientRenderablesList::CEntry * const pEntitiesBegin = m_pRenderablesList->m_RenderGroups[ RENDER_GROUP_OPAQUE_STATIC_HUGE + 2 * bucket ], * const pEntitiesEnd = pEntitiesBegin + m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_STATIC_HUGE + 2 * bucket ]; DrawOpaqueRenderables_DrawStaticProps( pEntitiesBegin, pEntitiesEnd, bShadowDepth ); } } // now the other opaque entities for ( int bucket = RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS - 1; bucket -- > 0; ) { CClientRenderablesList::CEntry * const pEntitiesBegin = m_pRenderablesList->m_RenderGroups[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ], * const pEntitiesEnd = pEntitiesBegin + m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ]; DrawOpaqueRenderables_Range( pEntitiesBegin, pEntitiesEnd, bShadowDepth ); } // // Ropes and particles // RopeManager()->DrawRenderCache( bShadowDepth ); g_pParticleSystemMgr->DrawRenderCache( bShadowDepth ); return; } } #endif // // Sort everything that's not a static prop // int numOpaqueEnts = 0; for ( int bucket = 0; bucket < RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS; ++ bucket ) numOpaqueEnts += m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ]; CUtlVector< C_BaseAnimating * > arrBoneSetupNpcsLast( (C_BaseAnimating **)_alloca( numOpaqueEnts * sizeof( C_BaseAnimating * ) ), numOpaqueEnts, numOpaqueEnts ); CUtlVector< CClientRenderablesList::CEntry > arrRenderEntsNpcsFirst( (CClientRenderablesList::CEntry *)_alloca( numOpaqueEnts * sizeof( CClientRenderablesList::CEntry ) ), numOpaqueEnts, numOpaqueEnts ); int numNpcs = 0, numNonNpcsAnimating = 0; for ( int bucket = 0; bucket < RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS; ++ bucket ) { for( CClientRenderablesList::CEntry * const pEntitiesBegin = m_pRenderablesList->m_RenderGroups[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ], * const pEntitiesEnd = pEntitiesBegin + m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ], *itEntity = pEntitiesBegin; itEntity < pEntitiesEnd; ++ itEntity ) { C_BaseEntity *pEntity = itEntity->m_pRenderable ? itEntity->m_pRenderable->GetIClientUnknown()->GetBaseEntity() : NULL; if ( pEntity ) { if ( pEntity->IsNPC() ) { C_BaseAnimating *pba = assert_cast( pEntity ); arrRenderEntsNpcsFirst[ numNpcs ++ ] = *itEntity; arrBoneSetupNpcsLast[ numOpaqueEnts - numNpcs ] = pba; itEntity->m_pRenderable = NULL; // We will render NPCs separately itEntity->m_RenderHandle = NULL; continue; } else if ( pEntity->GetBaseAnimating() ) { C_BaseAnimating *pba = assert_cast( pEntity ); arrBoneSetupNpcsLast[ numNonNpcsAnimating ++ ] = pba; // fall through } } } } if ( 0 && r_threaded_renderables.GetBool() ) { ParallelProcess( "BoneSetupNpcsLast", arrBoneSetupNpcsLast.Base() + numOpaqueEnts - numNpcs, numNpcs, &SetupBonesOnBaseAnimating ); ParallelProcess( "BoneSetupNpcsLast NonNPCs", arrBoneSetupNpcsLast.Base(), numNonNpcsAnimating, &SetupBonesOnBaseAnimating ); } // // Draw static props + opaque entities from the biggest bucket to the smallest // { CClientRenderablesList::CEntry * pEnts[ RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS ][2]; CClientRenderablesList::CEntry * pProps[ RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS ][2]; for ( int bucket = 0; bucket < RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS; ++ bucket ) { pEnts[bucket][0] = m_pRenderablesList->m_RenderGroups[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ]; pEnts[bucket][1] = pEnts[bucket][0] + m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_ENTITY_HUGE + 2 * bucket ]; pProps[bucket][0] = m_pRenderablesList->m_RenderGroups[ RENDER_GROUP_OPAQUE_STATIC_HUGE + 2 * bucket ]; pProps[bucket][1] = pProps[bucket][0] + m_pRenderablesList->m_RenderGroupCounts[ RENDER_GROUP_OPAQUE_STATIC_HUGE + 2 * bucket ]; // Render sequence debugging #if DEBUG_BUCKETS if ( r_drawopaquesbucket_stats.GetBool() ) { con_nprint_s nxPrn = { 0 }; nxPrn.index = 20 + bucket * 3; nxPrn.time_to_live = -1; nxPrn.color[0] = 0.9f, nxPrn.color[1] = 1.0f, nxPrn.color[2] = 0.9f; nxPrn.fixed_width_font = true; if ( bDrawopaquestaticpropslast ) engine->Con_NXPrintf( &nxPrn, "[ %2d ] Ents : %3d", bucket + 1, pEnts[bucket][1] - pEnts[bucket][0] ), ++ nxPrn.index, engine->Con_NXPrintf( &nxPrn, "[ %2d ] Props: %3d", bucket + 1, pProps[bucket][1] - pProps[bucket][0] ); else engine->Con_NXPrintf( &nxPrn, "[ %2d ] Props: %3d", bucket + 1, pProps[bucket][1] - pProps[bucket][0] ), ++ nxPrn.index, engine->Con_NXPrintf( &nxPrn, "[ %2d ] Ents : %3d", bucket + 1, pEnts[bucket][1] - pEnts[bucket][0] ); } #endif } #if DEBUG_BUCKETS if ( int iBucket = r_drawopaquesbucket.GetInt() ) { if ( iBucket > 0 && iBucket <= RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS ) { DrawOpaqueRenderables_Range( pEnts[iBucket - 1][0], pEnts[iBucket - 1][1], bShadowDepth ); } if ( iBucket < 0 && iBucket >= -RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS ) { DrawOpaqueRenderables_DrawStaticProps( pProps[- 1 - iBucket][0], pProps[- 1 - iBucket][1], bShadowDepth ); } } else #endif for ( int bucket = 0; bucket < RENDER_GROUP_CFG_NUM_OPAQUE_ENT_BUCKETS; ++ bucket ) { // PVS-Studio pointed out that the two sides of the if/else were identical. Fixing // this long-broken behavior would change rendering, so I fixed the code but // commented out the new behavior. Uncomment the if statement and else block // when needed. //if ( bDrawopaquestaticpropslast ) { DrawOpaqueRenderables_Range( pEnts[bucket][0], pEnts[bucket][1], DepthMode ); DrawOpaqueRenderables_DrawStaticProps( pProps[bucket][0], pProps[bucket][1], DepthMode ); } /*else { DrawOpaqueRenderables_DrawStaticProps( pProps[bucket][0], pProps[bucket][1], DepthMode ); DrawOpaqueRenderables_Range( pEnts[bucket][0], pEnts[bucket][1], DepthMode ); }*/ } } // // Draw NPCs now // DrawOpaqueRenderables_Range( arrRenderEntsNpcsFirst.Base(), arrRenderEntsNpcsFirst.Base() + numNpcs, DepthMode ); // // Ropes and particles // RopeManager()->DrawRenderCache( DepthMode ); g_pParticleSystemMgr->DrawRenderCache( DepthMode ); } //----------------------------------------------------------------------------- // Renders all translucent world + detail objects in a particular set of leaves //----------------------------------------------------------------------------- void CRendering3dView::DrawTranslucentWorldInLeaves( bool bShadowDepth ) { VPROF_BUDGET( "CViewRender::DrawTranslucentWorldInLeaves", VPROF_BUDGETGROUP_WORLD_RENDERING ); const ClientWorldListInfo_t& info = *m_pWorldListInfo; for( int iCurLeafIndex = info.m_LeafCount - 1; iCurLeafIndex >= 0; iCurLeafIndex-- ) { int nActualLeafIndex = info.m_pActualLeafIndex ? info.m_pActualLeafIndex[ iCurLeafIndex ] : iCurLeafIndex; Assert( nActualLeafIndex != INVALID_LEAF_INDEX ); if ( render->LeafContainsTranslucentSurfaces( m_pWorldRenderList, nActualLeafIndex, m_DrawFlags ) ) { // Now draw the surfaces in this leaf render->DrawTranslucentSurfaces( m_pWorldRenderList, nActualLeafIndex, m_DrawFlags, bShadowDepth ); } } } //----------------------------------------------------------------------------- // Renders all translucent world + detail objects in a particular set of leaves //----------------------------------------------------------------------------- void CRendering3dView::DrawTranslucentWorldAndDetailPropsInLeaves( int iCurLeafIndex, int iFinalLeafIndex, int nEngineDrawFlags, int &nDetailLeafCount, LeafIndex_t* pDetailLeafList, bool bShadowDepth ) { VPROF_BUDGET( "CViewRender::DrawTranslucentWorldAndDetailPropsInLeaves", VPROF_BUDGETGROUP_WORLD_RENDERING ); const ClientWorldListInfo_t& info = *m_pWorldListInfo; for( ; iCurLeafIndex >= iFinalLeafIndex; iCurLeafIndex-- ) { int nActualLeafIndex = info.m_pActualLeafIndex ? info.m_pActualLeafIndex[ iCurLeafIndex ] : iCurLeafIndex; Assert( nActualLeafIndex != INVALID_LEAF_INDEX ); if ( render->LeafContainsTranslucentSurfaces( m_pWorldRenderList, nActualLeafIndex, nEngineDrawFlags ) ) { // First draw any queued-up detail props from previously visited leaves DetailObjectSystem()->RenderTranslucentDetailObjects( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nDetailLeafCount, pDetailLeafList ); nDetailLeafCount = 0; // Now draw the surfaces in this leaf render->DrawTranslucentSurfaces( m_pWorldRenderList, nActualLeafIndex, nEngineDrawFlags, bShadowDepth ); } // Queue up detail props that existed in this leaf if ( ClientLeafSystem()->ShouldDrawDetailObjectsInLeaf( info.m_pLeafList[iCurLeafIndex], m_pMainView->BuildWorldListsNumber() ) ) { pDetailLeafList[nDetailLeafCount] = info.m_pLeafList[iCurLeafIndex]; ++nDetailLeafCount; } } } //----------------------------------------------------------------------------- // Renders all translucent entities in the render list //----------------------------------------------------------------------------- static inline void DrawTranslucentRenderable( IClientRenderable *pEnt, bool twoPass, bool bShadowDepth, bool bIgnoreDepth ) { // Determine blending amount and tell engine float blend = (float)( pEnt->GetFxBlend() / 255.0f ); // Totally gone if ( blend <= 0.0f ) return; if ( pEnt->IgnoresZBuffer() != bIgnoreDepth ) return; // Tell engine render->SetBlend( blend ); float color[3]; pEnt->GetColorModulation( color ); render->SetColorModulation( color ); int flags = STUDIO_RENDER | STUDIO_TRANSPARENCY; if ( twoPass ) flags |= STUDIO_TWOPASS; if ( bShadowDepth ) flags |= STUDIO_SHADOWDEPTHTEXTURE; float *pRenderClipPlane = NULL; if( r_entityclips.GetBool() ) pRenderClipPlane = pEnt->GetRenderClipPlane(); if( pRenderClipPlane ) { CMatRenderContextPtr pRenderContext( materials ); if( !materials->UsingFastClipping() ) //do NOT change the fast clip plane mid-scene, depth problems result. Regular user clip planes are fine though pRenderContext->PushCustomClipPlane( pRenderClipPlane ); else DrawClippedDepthBox( pEnt, pRenderClipPlane ); Assert( view->GetCurrentlyDrawingEntity() == NULL ); view->SetCurrentlyDrawingEntity( pEnt->GetIClientUnknown()->GetBaseEntity() ); pEnt->DrawModel( flags ); view->SetCurrentlyDrawingEntity( NULL ); if( pRenderClipPlane && !materials->UsingFastClipping() ) pRenderContext->PopCustomClipPlane(); } else { Assert( view->GetCurrentlyDrawingEntity() == NULL ); view->SetCurrentlyDrawingEntity( pEnt->GetIClientUnknown()->GetBaseEntity() ); pEnt->DrawModel( flags ); view->SetCurrentlyDrawingEntity( NULL ); } } //----------------------------------------------------------------------------- // Renders all translucent entities in the render list //----------------------------------------------------------------------------- void CRendering3dView::DrawTranslucentRenderablesNoWorld( bool bInSkybox ) { VPROF( "CViewRender::DrawTranslucentRenderablesNoWorld" ); if ( !m_pMainView->ShouldDrawEntities() || !r_drawtranslucentrenderables.GetBool() ) return; // Draw the particle singletons. DrawParticleSingletons( bInSkybox ); bool bShadowDepth = (m_DrawFlags & ( DF_SHADOW_DEPTH_MAP | DF_SSAO_DEPTH_PASS ) ) != 0; CClientRenderablesList::CEntry *pEntities = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_TRANSLUCENT_ENTITY]; int iCurTranslucentEntity = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_TRANSLUCENT_ENTITY] - 1; while( iCurTranslucentEntity >= 0 ) { IClientRenderable *pRenderable = pEntities[iCurTranslucentEntity].m_pRenderable; if ( pRenderable->UsesPowerOfTwoFrameBufferTexture() ) { UpdateRefractTexture(); } if ( pRenderable->UsesFullFrameBufferTexture() ) { UpdateScreenEffectTexture(); } DrawTranslucentRenderable( pRenderable, pEntities[iCurTranslucentEntity].m_TwoPass != 0, bShadowDepth, false ); --iCurTranslucentEntity; } // Reset the blend state. render->SetBlend( 1 ); } //----------------------------------------------------------------------------- // Renders all translucent entities in the render list that ignore the Z buffer //----------------------------------------------------------------------------- void CRendering3dView::DrawNoZBufferTranslucentRenderables( void ) { VPROF( "CViewRender::DrawNoZBufferTranslucentRenderables" ); if ( !m_pMainView->ShouldDrawEntities() || !r_drawtranslucentrenderables.GetBool() ) return; bool bShadowDepth = (m_DrawFlags & ( DF_SHADOW_DEPTH_MAP | DF_SSAO_DEPTH_PASS ) ) != 0; CClientRenderablesList::CEntry *pEntities = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_TRANSLUCENT_ENTITY]; int iCurTranslucentEntity = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_TRANSLUCENT_ENTITY] - 1; while( iCurTranslucentEntity >= 0 ) { IClientRenderable *pRenderable = pEntities[iCurTranslucentEntity].m_pRenderable; if ( pRenderable->UsesPowerOfTwoFrameBufferTexture() ) { UpdateRefractTexture(); } if ( pRenderable->UsesFullFrameBufferTexture() ) { UpdateScreenEffectTexture(); } DrawTranslucentRenderable( pRenderable, pEntities[iCurTranslucentEntity].m_TwoPass != 0, bShadowDepth, true ); --iCurTranslucentEntity; } // Reset the blend state. render->SetBlend( 1 ); } //----------------------------------------------------------------------------- // Renders all translucent world, entities, and detail objects in a particular set of leaves //----------------------------------------------------------------------------- void CRendering3dView::DrawTranslucentRenderables( bool bInSkybox, bool bShadowDepth ) { const ClientWorldListInfo_t& info = *m_pWorldListInfo; #ifdef PORTAL //if we're in the portal mod, we need to make a detour so we can render portal views using stencil areas if( ShouldDrawPortals() ) //no recursive stencil views during skybox rendering (although we might be drawing a skybox while already in a recursive stencil view) { int iDrawFlagsBackup = m_DrawFlags; if( g_pPortalRender->DrawPortalsUsingStencils( (CViewRender *)m_pMainView ) )// @MULTICORE (toml 8/10/2006): remove this hack cast { m_DrawFlags = iDrawFlagsBackup; //reset visibility unsigned int iVisFlags = 0; m_pMainView->SetupVis( *this, iVisFlags, m_pCustomVisibility ); //recreate drawlists (since I can't find an easy way to backup the originals) { SafeRelease( m_pWorldRenderList ); SafeRelease( m_pWorldListInfo ); BuildWorldRenderLists( ((m_DrawFlags & DF_DRAW_ENTITITES) != 0), m_pCustomVisibility ? m_pCustomVisibility->m_iForceViewLeaf : -1, false ); AssertMsg( m_DrawFlags & DF_DRAW_ENTITITES, "It shouldn't be possible to get here if this wasn't set, needs special case investigation" ); for( int i = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_TRANSLUCENT_ENTITY]; --i >= 0; ) { m_pRenderablesList->m_RenderGroups[RENDER_GROUP_TRANSLUCENT_ENTITY][i].m_pRenderable->ComputeFxBlend(); } } if( r_depthoverlay.GetBool() ) { CMatRenderContextPtr pRenderContext( materials ); ITexture *pDepthTex = GetFullFrameDepthTexture(); IMaterial *pMaterial = materials->FindMaterial( "debug/showz", TEXTURE_GROUP_OTHER, true ); pMaterial->IncrementReferenceCount(); IMaterialVar *BaseTextureVar = pMaterial->FindVar( "$basetexture", NULL, false ); IMaterialVar *pDepthInAlpha = NULL; if( IsPC() ) { pDepthInAlpha = pMaterial->FindVar( "$ALPHADEPTH", NULL, false ); pDepthInAlpha->SetIntValue( 1 ); } BaseTextureVar->SetTextureValue( pDepthTex ); pRenderContext->OverrideDepthEnable( true, false ); //don't write to depth, or else we'll never see translucents pRenderContext->DrawScreenSpaceQuad( pMaterial ); pRenderContext->OverrideDepthEnable( false, true ); pMaterial->DecrementReferenceCount(); } } else { //done recursing in, time to go back out and do translucents CMatRenderContextPtr pRenderContext( materials ); UpdateFullScreenDepthTexture(); } } #else { //opaques generally write depth, and translucents generally don't. //So immediately after opaques are done is the best time to snap off the depth buffer to a texture. switch ( g_CurrentViewID ) { case VIEW_MAIN: #ifdef _X360 case VIEW_INTRO_CAMERA: case VIEW_INTRO_PLAYER: #endif UpdateFullScreenDepthTexture(); break; default: materials->GetRenderContext()->SetFullScreenDepthTextureValidityFlag( false ); break; } } #endif if ( !r_drawtranslucentworld.GetBool() ) { DrawTranslucentRenderablesNoWorld( bInSkybox ); return; } VPROF_BUDGET( "CViewRender::DrawTranslucentRenderables", "DrawTranslucentRenderables" ); int iPrevLeaf = info.m_LeafCount - 1; int nDetailLeafCount = 0; LeafIndex_t *pDetailLeafList = (LeafIndex_t*)stackalloc( info.m_LeafCount * sizeof(LeafIndex_t) ); // bool bDrawUnderWater = (nFlags & DF_RENDER_UNDERWATER) != 0; // bool bDrawAboveWater = (nFlags & DF_RENDER_ABOVEWATER) != 0; // bool bDrawWater = (nFlags & DF_RENDER_WATER) != 0; // bool bClipSkybox = (nFlags & DF_CLIP_SKYBOX ) != 0; unsigned long nEngineDrawFlags = BuildEngineDrawWorldListFlags( m_DrawFlags & ~DF_DRAWSKYBOX ); DetailObjectSystem()->BeginTranslucentDetailRendering(); if ( m_pMainView->ShouldDrawEntities() && r_drawtranslucentrenderables.GetBool() ) { MDLCACHE_CRITICAL_SECTION(); // Draw the particle singletons. DrawParticleSingletons( bInSkybox ); CClientRenderablesList::CEntry *pEntities = m_pRenderablesList->m_RenderGroups[RENDER_GROUP_TRANSLUCENT_ENTITY]; int iCurTranslucentEntity = m_pRenderablesList->m_RenderGroupCounts[RENDER_GROUP_TRANSLUCENT_ENTITY] - 1; bool bRenderingWaterRenderTargets = m_DrawFlags & ( DF_RENDER_REFRACTION | DF_RENDER_REFLECTION ); while( iCurTranslucentEntity >= 0 ) { // Seek the current leaf up to our current translucent-entity leaf. int iThisLeaf = pEntities[iCurTranslucentEntity].m_iWorldListInfoLeaf; // First draw the translucent parts of the world up to and including those in this leaf DrawTranslucentWorldAndDetailPropsInLeaves( iPrevLeaf, iThisLeaf, nEngineDrawFlags, nDetailLeafCount, pDetailLeafList, bShadowDepth ); // We're traversing the leaf list backwards to get the appropriate sort ordering (back to front) iPrevLeaf = iThisLeaf - 1; // Draw all the translucent entities with this leaf. int nLeaf = info.m_pLeafList[iThisLeaf]; bool bDrawDetailProps = ClientLeafSystem()->ShouldDrawDetailObjectsInLeaf( nLeaf, m_pMainView->BuildWorldListsNumber() ); if ( bDrawDetailProps ) { // Draw detail props up to but not including this leaf Assert( nDetailLeafCount > 0 ); --nDetailLeafCount; Assert( pDetailLeafList[nDetailLeafCount] == nLeaf ); DetailObjectSystem()->RenderTranslucentDetailObjects( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nDetailLeafCount, pDetailLeafList ); // Draw translucent renderables in the leaf interspersed with detail props for( ;pEntities[iCurTranslucentEntity].m_iWorldListInfoLeaf == iThisLeaf && iCurTranslucentEntity >= 0; --iCurTranslucentEntity ) { IClientRenderable *pRenderable = pEntities[iCurTranslucentEntity].m_pRenderable; // Draw any detail props in this leaf that's farther than the entity const Vector &vecRenderOrigin = pRenderable->GetRenderOrigin(); DetailObjectSystem()->RenderTranslucentDetailObjectsInLeaf( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nLeaf, &vecRenderOrigin ); bool bUsesPowerOfTwoFB = pRenderable->UsesPowerOfTwoFrameBufferTexture(); bool bUsesFullFB = pRenderable->UsesFullFrameBufferTexture(); if ( ( bUsesPowerOfTwoFB || bUsesFullFB )&& !bShadowDepth ) { if( bRenderingWaterRenderTargets ) { continue; } CMatRenderContextPtr pRenderContext( materials ); ITexture *rt = pRenderContext->GetRenderTarget(); if ( rt && bUsesFullFB ) { UpdateScreenEffectTexture( 0, 0, 0, rt->GetActualWidth(), rt->GetActualHeight(), true ); } else if ( bUsesPowerOfTwoFB ) { UpdateRefractTexture(); } pRenderContext.SafeRelease(); } // Then draw the translucent renderable DrawTranslucentRenderable( pRenderable, (pEntities[iCurTranslucentEntity].m_TwoPass != 0), bShadowDepth, false ); } // Draw all remaining props in this leaf DetailObjectSystem()->RenderTranslucentDetailObjectsInLeaf( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nLeaf, NULL ); } else { // Draw queued up detail props (we know that the list of detail leaves won't include this leaf, since ShouldDrawDetailObjectsInLeaf is false) // Therefore no fixup on nDetailLeafCount is required as in the above section DetailObjectSystem()->RenderTranslucentDetailObjects( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nDetailLeafCount, pDetailLeafList ); for( ;pEntities[iCurTranslucentEntity].m_iWorldListInfoLeaf == iThisLeaf && iCurTranslucentEntity >= 0; --iCurTranslucentEntity ) { IClientRenderable *pRenderable = pEntities[iCurTranslucentEntity].m_pRenderable; bool bUsesPowerOfTwoFB = pRenderable->UsesPowerOfTwoFrameBufferTexture(); bool bUsesFullFB = pRenderable->UsesFullFrameBufferTexture(); if ( ( bUsesPowerOfTwoFB || bUsesFullFB )&& !bShadowDepth ) { if( bRenderingWaterRenderTargets ) { continue; } CMatRenderContextPtr pRenderContext( materials ); ITexture *rt = pRenderContext->GetRenderTarget(); if ( rt ) { if ( bUsesFullFB ) { UpdateScreenEffectTexture( 0, 0, 0, rt->GetActualWidth(), rt->GetActualHeight(), true ); } else if ( bUsesPowerOfTwoFB ) { UpdateRefractTexture(0, 0, rt->GetActualWidth(), rt->GetActualHeight()); } } else { if ( bUsesPowerOfTwoFB ) { UpdateRefractTexture(); } } pRenderContext.SafeRelease(); } DrawTranslucentRenderable( pRenderable, (pEntities[iCurTranslucentEntity].m_TwoPass != 0), bShadowDepth, false ); } } nDetailLeafCount = 0; } } // Draw the rest of the surfaces in world leaves DrawTranslucentWorldAndDetailPropsInLeaves( iPrevLeaf, 0, nEngineDrawFlags, nDetailLeafCount, pDetailLeafList, bShadowDepth ); // Draw any queued-up detail props from previously visited leaves DetailObjectSystem()->RenderTranslucentDetailObjects( CurrentViewOrigin(), CurrentViewForward(), CurrentViewRight(), CurrentViewUp(), nDetailLeafCount, pDetailLeafList ); // Reset the blend state. render->SetBlend( 1 ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CRendering3dView::EnableWorldFog( void ) { VPROF("CViewRender::EnableWorldFog"); CMatRenderContextPtr pRenderContext( materials ); fogparams_t *pFogParams = NULL; C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if ( pbp ) { pFogParams = pbp->GetFogParams(); } if( GetFogEnable( pFogParams ) ) { float fogColor[3]; GetFogColor( pFogParams, fogColor ); pRenderContext->FogMode( MATERIAL_FOG_LINEAR ); pRenderContext->FogColor3fv( fogColor ); pRenderContext->FogStart( GetFogStart( pFogParams ) ); pRenderContext->FogEnd( GetFogEnd( pFogParams ) ); pRenderContext->FogMaxDensity( GetFogMaxDensity( pFogParams ) ); } else { pRenderContext->FogMode( MATERIAL_FOG_NONE ); } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- int CRendering3dView::GetDrawFlags() { return m_DrawFlags; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CRendering3dView::SetFogVolumeState( const VisibleFogVolumeInfo_t &fogInfo, bool bUseHeightFog ) { render->SetFogVolumeState( fogInfo.m_nVisibleFogVolume, bUseHeightFog ); #ifdef PORTAL //the idea behind fog shifting is this... //Normal fog simulates the effect of countless tiny particles between your viewpoint and whatever geometry is rendering. //But, when rendering to a portal view, there's a large space between the virtual camera and the portal exit surface. //This space isn't supposed to exist, and therefore has none of the tiny particles that make up fog. //So, we have to shift fog start/end out to align the distances with the portal exit surface instead of the virtual camera to eliminate fog simulation in the non-space if( g_pPortalRender->GetViewRecursionLevel() == 0 ) return; //rendering one of the primary views, do nothing g_pPortalRender->ShiftFogForExitPortalView(); #endif //#ifdef PORTAL } //----------------------------------------------------------------------------- // Standard 3d skybox view //----------------------------------------------------------------------------- SkyboxVisibility_t CSkyboxView::ComputeSkyboxVisibility() { return engine->IsSkyboxVisibleFromPoint( origin ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- bool CSkyboxView::GetSkyboxFogEnable() { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if( !pbp ) { return false; } CPlayerLocalData *local = &pbp->m_Local; if( fog_override.GetInt() ) { if( fog_enableskybox.GetInt() ) { return true; } else { return false; } } else { return !!local->m_skybox3d.fog.enable; } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CSkyboxView::Enable3dSkyboxFog( void ) { C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); if( !pbp ) { return; } CPlayerLocalData *local = &pbp->m_Local; CMatRenderContextPtr pRenderContext( materials ); if( GetSkyboxFogEnable() ) { float fogColor[3]; GetSkyboxFogColor( fogColor ); float scale = 1.0f; if ( local->m_skybox3d.scale > 0.0f ) { scale = 1.0f / local->m_skybox3d.scale; } pRenderContext->FogMode( MATERIAL_FOG_LINEAR ); pRenderContext->FogColor3fv( fogColor ); pRenderContext->FogStart( GetSkyboxFogStart() * scale ); pRenderContext->FogEnd( GetSkyboxFogEnd() * scale ); pRenderContext->FogMaxDensity( GetSkyboxFogMaxDensity() ); } else { pRenderContext->FogMode( MATERIAL_FOG_NONE ); } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- sky3dparams_t *CSkyboxView::PreRender3dSkyboxWorld( SkyboxVisibility_t nSkyboxVisible ) { if ( ( nSkyboxVisible != SKYBOX_3DSKYBOX_VISIBLE ) && r_3dsky.GetInt() != 2 ) return NULL; // render the 3D skybox if ( !r_3dsky.GetInt() ) return NULL; C_BasePlayer *pbp = C_BasePlayer::GetLocalPlayer(); // No local player object yet... if ( !pbp ) return NULL; CPlayerLocalData* local = &pbp->m_Local; if ( local->m_skybox3d.area == 255 ) return NULL; return &local->m_skybox3d; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CSkyboxView::DrawInternal( view_id_t iSkyBoxViewID, bool bInvokePreAndPostRender, ITexture *pRenderTarget, ITexture *pDepthTarget ) { unsigned char **areabits = render->GetAreaBits(); unsigned char *savebits; unsigned char tmpbits[ 32 ]; savebits = *areabits; memset( tmpbits, 0, sizeof(tmpbits) ); // set the sky area bit tmpbits[m_pSky3dParams->area>>3] |= 1 << (m_pSky3dParams->area&7); *areabits = tmpbits; // if you can get really close to the skybox geometry it's possible that you'll be able to clip into it // with this near plane. If so, move it in a bit. It's at 2.0 to give us more precision. That means you // need to keep the eye position at least 2 * scale away from the geometry in the skybox zNear = 2.0; zFar = MAX_TRACE_LENGTH; // scale origin by sky scale if ( m_pSky3dParams->scale > 0 ) { float scale = 1.0f / m_pSky3dParams->scale; VectorScale( origin, scale, origin ); } Enable3dSkyboxFog(); VectorAdd( origin, m_pSky3dParams->origin, origin ); // BUGBUG: Fix this!!! We shouldn't need to call setup vis for the sky if we're connecting // the areas. We'd have to mark all the clusters in the skybox area in the PVS of any // cluster with sky. Then we could just connect the areas to do our vis. //m_bOverrideVisOrigin could hose us here, so call direct render->ViewSetupVis( false, 1, &m_pSky3dParams->origin.Get() ); render->Push3DView( (*this), m_ClearFlags, pRenderTarget, GetFrustum(), pDepthTarget ); // Store off view origin and angles SetupCurrentView( origin, angles, iSkyBoxViewID ); #if defined( _X360 ) CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PushVertexShaderGPRAllocation( 32 ); pRenderContext.SafeRelease(); #endif // Invoke pre-render methods if ( bInvokePreAndPostRender ) { IGameSystem::PreRenderAllSystems(); } render->BeginUpdateLightmaps(); BuildWorldRenderLists( true, true, -1 ); BuildRenderableRenderLists( iSkyBoxViewID ); render->EndUpdateLightmaps(); g_pClientShadowMgr->ComputeShadowTextures( (*this), m_pWorldListInfo->m_LeafCount, m_pWorldListInfo->m_pLeafList ); DrawWorld( 0.0f ); // Iterate over all leaves and render objects in those leaves DrawOpaqueRenderables( DEPTH_MODE_NORMAL ); // Iterate over all leaves and render objects in those leaves DrawTranslucentRenderables( true, false ); DrawNoZBufferTranslucentRenderables(); m_pMainView->DisableFog(); CGlowOverlay::UpdateSkyOverlays( zFar, m_bCacheFullSceneState ); PixelVisibility_EndCurrentView(); // restore old area bits *areabits = savebits; // Invoke post-render methods if( bInvokePreAndPostRender ) { IGameSystem::PostRenderAllSystems(); FinishCurrentView(); } render->PopView( GetFrustum() ); #if defined( _X360 ) pRenderContext.GetFrom( materials ); pRenderContext->PopVertexShaderGPRAllocation(); #endif } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- bool CSkyboxView::Setup( const CViewSetup &viewRender, int *pClearFlags, SkyboxVisibility_t *pSkyboxVisible ) { BaseClass::Setup( viewRender ); // The skybox might not be visible from here *pSkyboxVisible = ComputeSkyboxVisibility(); m_pSky3dParams = PreRender3dSkyboxWorld( *pSkyboxVisible ); if ( !m_pSky3dParams ) { return false; } // At this point, we've cleared everything we need to clear // The next path will need to clear depth, though. m_ClearFlags = *pClearFlags; *pClearFlags &= ~( VIEW_CLEAR_COLOR | VIEW_CLEAR_DEPTH | VIEW_CLEAR_STENCIL | VIEW_CLEAR_FULL_TARGET ); *pClearFlags |= VIEW_CLEAR_DEPTH; // Need to clear depth after rednering the skybox m_DrawFlags = DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER | DF_RENDER_WATER; if( r_skybox.GetBool() ) { m_DrawFlags |= DF_DRAWSKYBOX; } return true; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CSkyboxView::Draw() { VPROF_BUDGET( "CViewRender::Draw3dSkyboxworld", "3D Skybox" ); ITexture *pRTColor = NULL; ITexture *pRTDepth = NULL; if( m_eStereoEye != STEREO_EYE_MONO ) { pRTColor = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(m_eStereoEye-1), ISourceVirtualReality::RT_Color ); pRTDepth = g_pSourceVR->GetRenderTarget( (ISourceVirtualReality::VREye)(m_eStereoEye-1), ISourceVirtualReality::RT_Depth ); } DrawInternal(VIEW_3DSKY, true, pRTColor, pRTDepth ); } #ifdef PORTAL //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- bool CPortalSkyboxView::Setup( const CViewSetup &view, int *pClearFlags, SkyboxVisibility_t *pSkyboxVisible, ITexture *pRenderTarget ) { if ( !BaseClass::Setup( view, pClearFlags, pSkyboxVisible ) ) return false; m_pRenderTarget = pRenderTarget; return true; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- SkyboxVisibility_t CPortalSkyboxView::ComputeSkyboxVisibility() { return g_pPortalRender->IsSkyboxVisibleFromExitPortal(); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CPortalSkyboxView::Draw() { AssertMsg( (g_pPortalRender->GetViewRecursionLevel() != 0) && g_pPortalRender->IsRenderingPortal(), "This is designed for through-portal views. Use the regular skybox drawing code for primary views" ); VPROF_BUDGET( "CViewRender::Draw3dSkyboxworld_Portal", "3D Skybox (portal view)" ); int iCurrentViewID = g_CurrentViewID; Frustum FrustumBackup; memcpy( FrustumBackup, GetFrustum(), sizeof( Frustum ) ); CMatRenderContextPtr pRenderContext( materials ); bool bClippingEnabled = pRenderContext->EnableClipping( false ); //NOTE: doesn't magically map to VIEW_3DSKY at (0,0) like PORTAL_VIEWID maps to VIEW_MAIN view_id_t iSkyBoxViewID = (view_id_t)g_pPortalRender->GetCurrentSkyboxViewId(); bool bInvokePreAndPostRender = ( g_pPortalRender->ShouldUseStencilsToRenderPortals() == false ); DrawInternal( iSkyBoxViewID, bInvokePreAndPostRender, m_pRenderTarget, NULL ); pRenderContext->EnableClipping( bClippingEnabled ); memcpy( GetFrustum(), FrustumBackup, sizeof( Frustum ) ); render->OverrideViewFrustum( FrustumBackup ); g_CurrentViewID = iCurrentViewID; } #endif // PORTAL //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CShadowDepthView::Setup( const CViewSetup &shadowViewIn, ITexture *pRenderTarget, ITexture *pDepthTexture ) { BaseClass::Setup( shadowViewIn ); m_pRenderTarget = pRenderTarget; m_pDepthTexture = pDepthTexture; } bool DrawingShadowDepthView( void ) //for easy externing { return (CurrentViewID() == VIEW_SHADOW_DEPTH_TEXTURE); } bool DrawingMainView() //for easy externing { return (CurrentViewID() == VIEW_MAIN); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CShadowDepthView::Draw() { VPROF_BUDGET( "CShadowDepthView::Draw", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); // Start view unsigned int visFlags; m_pMainView->SetupVis( (*this), visFlags ); // @MULTICORE (toml 8/9/2006): Portal problem, not sending custom vis down CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor3ub(0xFF, 0xFF, 0xFF); #if defined( _X360 ) pRenderContext->PushVertexShaderGPRAllocation( 112 ); //almost all work is done in vertex shaders for depth rendering, max out their threads #endif pRenderContext.SafeRelease(); if( IsPC() ) { render->Push3DView( (*this), VIEW_CLEAR_DEPTH, m_pRenderTarget, GetFrustum(), m_pDepthTexture ); } else if( IsX360() ) { //for the 360, the dummy render target has a separate depth buffer which we Resolve() from afterward render->Push3DView( (*this), VIEW_CLEAR_DEPTH, m_pRenderTarget, GetFrustum() ); } SetupCurrentView( origin, angles, VIEW_SHADOW_DEPTH_TEXTURE ); MDLCACHE_CRITICAL_SECTION(); { VPROF_BUDGET( "BuildWorldRenderLists", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); BuildWorldRenderLists( true, -1, true, true ); // @MULTICORE (toml 8/9/2006): Portal problem, not sending custom vis down } { VPROF_BUDGET( "BuildRenderableRenderLists", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); BuildRenderableRenderLists( CurrentViewID() ); } engine->Sound_ExtraUpdate(); // Make sure sound doesn't stutter m_DrawFlags = m_pMainView->GetBaseDrawFlags() | DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER | DF_SHADOW_DEPTH_MAP; // Don't draw water surface... { VPROF_BUDGET( "DrawWorld", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); DrawWorld( 0.0f ); } // Draw opaque and translucent renderables with appropriate override materials // OVERRIDE_DEPTH_WRITE is OK with a NULL material pointer modelrender->ForcedMaterialOverride( NULL, OVERRIDE_DEPTH_WRITE ); { VPROF_BUDGET( "DrawOpaqueRenderables", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); DrawOpaqueRenderables( DEPTH_MODE_SHADOW ); } modelrender->ForcedMaterialOverride( 0 ); m_DrawFlags = 0; pRenderContext.GetFrom( materials ); if( IsX360() ) { //Resolve() the depth texture here. Before the pop so the copy will recognize that the resolutions are the same pRenderContext->CopyRenderTargetToTextureEx( m_pDepthTexture, -1, NULL, NULL ); } render->PopView( GetFrustum() ); #if defined( _X360 ) pRenderContext->PopVertexShaderGPRAllocation(); #endif } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CFreezeFrameView::Setup( const CViewSetup &shadowViewIn ) { BaseClass::Setup( shadowViewIn ); KeyValues *pVMTKeyValues = new KeyValues( "UnlitGeneric" ); pVMTKeyValues->SetString( "$basetexture", IsX360() ? "_rt_FullFrameFB1" : "_rt_FullScreen" ); pVMTKeyValues->SetInt( "$nocull", 1 ); pVMTKeyValues->SetInt( "$nofog", 1 ); pVMTKeyValues->SetInt( "$ignorez", 1 ); m_pFreezeFrame.Init( "FreezeFrame_FullScreen", TEXTURE_GROUP_OTHER, pVMTKeyValues ); m_pFreezeFrame->Refresh(); m_TranslucentSingleColor.Init( "debug/debugtranslucentsinglecolor", TEXTURE_GROUP_OTHER ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFreezeFrameView::Draw( void ) { CMatRenderContextPtr pRenderContext( materials ); #if defined( _X360 ) pRenderContext->PushVertexShaderGPRAllocation( 16 ); //max out pixel shader threads #endif // we might only need half of the texture if we're rendering in stereo int nTexX0 = 0, nTexY0 = 0; int nTexX1 = width, nTexY1 = height; int nTexWidth = width, nTexHeight = height; switch( m_eStereoEye ) { case STEREO_EYE_LEFT: nTexX1 = width; nTexWidth *= 2; break; case STEREO_EYE_RIGHT: nTexX0 = width; nTexX1 = width*2; nTexWidth *= 2; break; } pRenderContext->DrawScreenSpaceRectangle( m_pFreezeFrame, x, y, width, height, nTexX0, nTexY0, nTexX1-1, nTexY1-1, nTexWidth, nTexHeight ); //Fake a fade during freezeframe view. if ( g_flFreezeFlash >= gpGlobals->curtime && engine->IsTakingScreenshot() == false ) { // Overlay screen fade on entire screen IMaterial* pMaterial = m_TranslucentSingleColor; int iFadeAlpha = FREEZECAM_SNAPSHOT_FADE_SPEED * ( g_flFreezeFlash - gpGlobals->curtime ); iFadeAlpha = MIN( iFadeAlpha, 255 ); iFadeAlpha = MAX( 0, iFadeAlpha ); pMaterial->AlphaModulate( iFadeAlpha * ( 1.0f / 255.0f ) ); pMaterial->ColorModulate( 1.0f, 1.0f, 1.0f ); pMaterial->SetMaterialVarFlag( MATERIAL_VAR_IGNOREZ, true ); pRenderContext->DrawScreenSpaceRectangle( pMaterial, x, y, width, height, 0, 0, width-1, height-1, width, height ); } #if defined( _X360 ) pRenderContext->PopVertexShaderGPRAllocation(); #endif } //----------------------------------------------------------------------------- // Pops a water render target //----------------------------------------------------------------------------- bool CBaseWorldView::AdjustView( float waterHeight ) { if( m_DrawFlags & DF_RENDER_REFRACTION ) { ITexture *pTexture = GetWaterRefractionTexture(); // Use the aspect ratio of the main view! So, don't recompute it here x = y = 0; width = pTexture->GetActualWidth(); height = pTexture->GetActualHeight(); return true; } if( m_DrawFlags & DF_RENDER_REFLECTION ) { ITexture *pTexture = GetWaterReflectionTexture(); // If the main view is overriding the projection matrix (for Stereo or // some other nefarious purpose) make sure to include any Y offset in // the custom projection matrix in our reflected overridden projection // matrix. if( m_bViewToProjectionOverride ) { m_ViewToProjection[1][2] = -m_ViewToProjection[1][2]; } // Use the aspect ratio of the main view! So, don't recompute it here x = y = 0; width = pTexture->GetActualWidth(); height = pTexture->GetActualHeight(); angles[0] = -angles[0]; angles[2] = -angles[2]; origin[2] -= 2.0f * ( origin[2] - (waterHeight)); return true; } return false; } //----------------------------------------------------------------------------- // Pops a water render target //----------------------------------------------------------------------------- void CBaseWorldView::PushView( float waterHeight ) { float spread = 2.0f; if( m_DrawFlags & DF_FUDGE_UP ) { waterHeight += spread; } else { waterHeight -= spread; } MaterialHeightClipMode_t clipMode = MATERIAL_HEIGHTCLIPMODE_DISABLE; if ( ( m_DrawFlags & DF_CLIP_Z ) && mat_clipz.GetBool() ) { if( m_DrawFlags & DF_CLIP_BELOW ) { clipMode = MATERIAL_HEIGHTCLIPMODE_RENDER_ABOVE_HEIGHT; } else { clipMode = MATERIAL_HEIGHTCLIPMODE_RENDER_BELOW_HEIGHT; } } CMatRenderContextPtr pRenderContext( materials ); if( m_DrawFlags & DF_RENDER_REFRACTION ) { pRenderContext->SetFogZ( waterHeight ); pRenderContext->SetHeightClipZ( waterHeight ); pRenderContext->SetHeightClipMode( clipMode ); // Have to re-set up the view since we reset the size render->Push3DView( *this, m_ClearFlags, GetWaterRefractionTexture(), GetFrustum() ); return; } if( m_DrawFlags & DF_RENDER_REFLECTION ) { ITexture *pTexture = GetWaterReflectionTexture(); pRenderContext->SetFogZ( waterHeight ); bool bSoftwareUserClipPlane = g_pMaterialSystemHardwareConfig->UseFastClipping(); if( bSoftwareUserClipPlane && ( origin[2] > waterHeight - r_eyewaterepsilon.GetFloat() ) ) { waterHeight = origin[2] + r_eyewaterepsilon.GetFloat(); } pRenderContext->SetHeightClipZ( waterHeight ); pRenderContext->SetHeightClipMode( clipMode ); render->Push3DView( *this, m_ClearFlags, pTexture, GetFrustum() ); SetLightmapScaleForWater(); return; } if ( m_ClearFlags & ( VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR | VIEW_CLEAR_STENCIL ) ) { if ( m_ClearFlags & VIEW_CLEAR_OBEY_STENCIL ) { pRenderContext->ClearBuffersObeyStencil( m_ClearFlags & VIEW_CLEAR_COLOR, m_ClearFlags & VIEW_CLEAR_DEPTH ); } else { pRenderContext->ClearBuffers( m_ClearFlags & VIEW_CLEAR_COLOR, m_ClearFlags & VIEW_CLEAR_DEPTH, m_ClearFlags & VIEW_CLEAR_STENCIL ); } } pRenderContext->SetHeightClipMode( clipMode ); if ( clipMode != MATERIAL_HEIGHTCLIPMODE_DISABLE ) { pRenderContext->SetHeightClipZ( waterHeight ); } } //----------------------------------------------------------------------------- // Pops a water render target //----------------------------------------------------------------------------- void CBaseWorldView::PopView() { CMatRenderContextPtr pRenderContext( materials ); pRenderContext->SetHeightClipMode( MATERIAL_HEIGHTCLIPMODE_DISABLE ); if( m_DrawFlags & (DF_RENDER_REFRACTION | DF_RENDER_REFLECTION) ) { if ( IsX360() ) { // these renders paths used their surfaces, so blit their results if ( m_DrawFlags & DF_RENDER_REFRACTION ) { pRenderContext->CopyRenderTargetToTextureEx( GetWaterRefractionTexture(), NULL, NULL ); } if ( m_DrawFlags & DF_RENDER_REFLECTION ) { pRenderContext->CopyRenderTargetToTextureEx( GetWaterReflectionTexture(), NULL, NULL ); } } render->PopView( GetFrustum() ); if (SavedLinearLightMapScale.x>=0) { pRenderContext->SetToneMappingScaleLinear(SavedLinearLightMapScale); SavedLinearLightMapScale.x=-1; } } } //----------------------------------------------------------------------------- // Draws the world + entities //----------------------------------------------------------------------------- void CBaseWorldView::DrawSetup( float waterHeight, int nSetupFlags, float waterZAdjust, int iForceViewLeaf ) { int savedViewID = g_CurrentViewID; g_CurrentViewID = VIEW_ILLEGAL; bool bViewChanged = AdjustView( waterHeight ); if ( bViewChanged ) { render->Push3DView( *this, 0, NULL, GetFrustum() ); } render->BeginUpdateLightmaps(); bool bDrawEntities = ( nSetupFlags & DF_DRAW_ENTITITES ) != 0; bool bDrawReflection = ( nSetupFlags & DF_RENDER_REFLECTION ) != 0; BuildWorldRenderLists( bDrawEntities, iForceViewLeaf, true, false, bDrawReflection ? &waterHeight : NULL ); PruneWorldListInfo(); if ( bDrawEntities ) { BuildRenderableRenderLists( savedViewID ); } render->EndUpdateLightmaps(); if ( bViewChanged ) { render->PopView( GetFrustum() ); } #ifdef TF_CLIENT_DLL bool bVisionOverride = ( localplayer_visionflags.GetInt() & ( 0x01 ) ); // Pyro-vision Goggles if ( savedViewID == VIEW_MAIN && bVisionOverride && pyro_dof.GetBool() ) { SSAO_DepthPass(); } #endif g_CurrentViewID = savedViewID; } void MaybeInvalidateLocalPlayerAnimation() { C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); if ( ( pPlayer != NULL ) && pPlayer->InFirstPersonView() ) { // We sometimes need different animation for the main view versus the shadow rendering, // so we need to reset the cache to ensure this actually happens. pPlayer->InvalidateBoneCache(); C_BaseCombatWeapon *pWeapon = pPlayer->GetActiveWeapon(); if ( pWeapon != NULL ) { pWeapon->InvalidateBoneCache(); } #if defined USES_ECON_ITEMS // ...and all the things you're wearing/holding/etc int NumWearables = pPlayer->GetNumWearables(); for ( int i = 0; i < NumWearables; ++i ) { CEconWearable* pItem = pPlayer->GetWearable ( i ); if ( pItem != NULL ) { pItem->InvalidateBoneCache(); } } #endif // USES_ECON_ITEMS } } void CBaseWorldView::DrawExecute( float waterHeight, view_id_t viewID, float waterZAdjust ) { int savedViewID = g_CurrentViewID; // @MULTICORE (toml 8/16/2006): rethink how, where, and when this is done... g_CurrentViewID = VIEW_SHADOW_DEPTH_TEXTURE; MaybeInvalidateLocalPlayerAnimation(); g_pClientShadowMgr->ComputeShadowTextures( *this, m_pWorldListInfo->m_LeafCount, m_pWorldListInfo->m_pLeafList ); MaybeInvalidateLocalPlayerAnimation(); // Make sure sound doesn't stutter engine->Sound_ExtraUpdate(); g_CurrentViewID = viewID; // Update our render view flags. int iDrawFlagsBackup = m_DrawFlags; m_DrawFlags |= m_pMainView->GetBaseDrawFlags(); PushView( waterHeight ); CMatRenderContextPtr pRenderContext( materials ); #if defined( _X360 ) pRenderContext->PushVertexShaderGPRAllocation( 32 ); #endif ITexture *pSaveFrameBufferCopyTexture = pRenderContext->GetFrameBufferCopyTexture( 0 ); if ( engine->GetDXSupportLevel() >= 80 ) { pRenderContext->SetFrameBufferCopyTexture( GetPowerOfTwoFrameBufferTexture() ); } pRenderContext.SafeRelease(); ERenderDepthMode DepthMode = DEPTH_MODE_NORMAL; if ( m_DrawFlags & DF_DRAW_ENTITITES ) { DrawWorld( waterZAdjust ); DrawOpaqueRenderables( DepthMode ); #ifdef TF_CLIENT_DLL bool bVisionOverride = ( localplayer_visionflags.GetInt() & ( 0x01 ) ); // Pyro-vision Goggles if ( g_CurrentViewID == VIEW_MAIN && bVisionOverride && pyro_dof.GetBool() ) // Pyro-vision Goggles { DrawDepthOfField(); } #endif DrawTranslucentRenderables( false, false ); DrawNoZBufferTranslucentRenderables(); } else { DrawWorld( waterZAdjust ); #ifdef TF_CLIENT_DLL bool bVisionOverride = ( localplayer_visionflags.GetInt() & ( 0x01 ) ); // Pyro-vision Goggles if ( g_CurrentViewID == VIEW_MAIN && bVisionOverride && pyro_dof.GetBool() ) // Pyro-vision Goggles { DrawDepthOfField(); } #endif // Draw translucent world brushes only, no entities DrawTranslucentWorldInLeaves( false ); } // issue the pixel visibility tests for sub-views if ( !IsMainView( CurrentViewID() ) && CurrentViewID() != VIEW_INTRO_CAMERA ) { PixelVisibility_EndCurrentView(); } pRenderContext.GetFrom( materials ); pRenderContext->SetFrameBufferCopyTexture( pSaveFrameBufferCopyTexture ); PopView(); m_DrawFlags = iDrawFlagsBackup; g_CurrentViewID = savedViewID; #if defined( _X360 ) pRenderContext->PopVertexShaderGPRAllocation(); #endif } void CBaseWorldView::SSAO_DepthPass() { if ( !g_pMaterialSystemHardwareConfig->SupportsPixelShaders_2_0() ) { return; } #if 1 VPROF_BUDGET( "CSimpleWorldView::SSAO_DepthPass", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); int savedViewID = g_CurrentViewID; g_CurrentViewID = VIEW_SSAO; ITexture *pSSAO = materials->FindTexture( "_rt_ResolvedFullFrameDepth", TEXTURE_GROUP_RENDER_TARGET ); CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor4ub( 255, 255, 255, 255 ); #if defined( _X360 ) Assert(0); // rebalance this if we ever use this on 360 pRenderContext->PushVertexShaderGPRAllocation( 112 ); //almost all work is done in vertex shaders for depth rendering, max out their threads #endif pRenderContext.SafeRelease(); if( IsPC() ) { render->Push3DView( (*this), VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, pSSAO, GetFrustum() ); } else if( IsX360() ) { render->Push3DView( (*this), VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, pSSAO, GetFrustum() ); } MDLCACHE_CRITICAL_SECTION(); engine->Sound_ExtraUpdate(); // Make sure sound doesn't stutter m_DrawFlags |= DF_SSAO_DEPTH_PASS; { VPROF_BUDGET( "DrawWorld", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); DrawWorld( 0.0f ); } // Draw opaque and translucent renderables with appropriate override materials // OVERRIDE_SSAO_DEPTH_WRITE is OK with a NULL material pointer modelrender->ForcedMaterialOverride( NULL, OVERRIDE_SSAO_DEPTH_WRITE ); { VPROF_BUDGET( "DrawOpaqueRenderables", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); DrawOpaqueRenderables( DEPTH_MODE_SSA0 ); } #if 0 if ( m_bRenderFlashlightDepthTranslucents || r_flashlightdepth_drawtranslucents.GetBool() ) { VPROF_BUDGET( "DrawTranslucentRenderables", VPROF_BUDGETGROUP_SHADOW_DEPTH_TEXTURING ); DrawTranslucentRenderables( false, true ); } #endif modelrender->ForcedMaterialOverride( 0 ); m_DrawFlags &= ~DF_SSAO_DEPTH_PASS; pRenderContext.GetFrom( materials ); if( IsX360() ) { //Resolve() the depth texture here. Before the pop so the copy will recognize that the resolutions are the same pRenderContext->CopyRenderTargetToTextureEx( NULL, -1, NULL, NULL ); } render->PopView( GetFrustum() ); #if defined( _X360 ) pRenderContext->PopVertexShaderGPRAllocation(); #endif pRenderContext.SafeRelease(); g_CurrentViewID = savedViewID; #endif } void CBaseWorldView::DrawDepthOfField( ) { if ( !g_pMaterialSystemHardwareConfig->SupportsPixelShaders_2_0() ) { return; } CMatRenderContextPtr pRenderContext( materials ); ITexture *pSmallFB0 = materials->FindTexture( "_rt_smallfb0", TEXTURE_GROUP_RENDER_TARGET ); ITexture *pSmallFB1 = materials->FindTexture( "_rt_smallfb1", TEXTURE_GROUP_RENDER_TARGET ); Rect_t DestRect; int w = pSmallFB0->GetActualWidth(); int h = pSmallFB0->GetActualHeight(); DestRect.x = 0; DestRect.y = 0; DestRect.width = w; DestRect.height = h; pRenderContext->CopyRenderTargetToTextureEx( pSmallFB0, 0, NULL, &DestRect ); IMaterial *pPyroBlurXMaterial = materials->FindMaterial( "dev/pyro_blur_filter_x", TEXTURE_GROUP_OTHER ); IMaterial *pPyroBlurYMaterial = materials->FindMaterial( "dev/pyro_blur_filter_y", TEXTURE_GROUP_OTHER ); pRenderContext->PushRenderTargetAndViewport( pSmallFB1, 0, 0, w, h ); pRenderContext->DrawScreenSpaceRectangle( pPyroBlurYMaterial, 0, 0, w, h, 0, 0, w - 1, h - 1, w, h ); pRenderContext->PopRenderTargetAndViewport(); pRenderContext->PushRenderTargetAndViewport( pSmallFB0, 0, 0, w, h ); pRenderContext->DrawScreenSpaceRectangle( pPyroBlurXMaterial, 0, 0, w, h, 0, 0, w - 1, h - 1, w, h ); pRenderContext->PopRenderTargetAndViewport(); IMaterial *pPyroDepthOfFieldMaterial = materials->FindMaterial( "dev/pyro_dof", TEXTURE_GROUP_OTHER ); pRenderContext->DrawScreenSpaceRectangle( pPyroDepthOfFieldMaterial, x, y, width, height, 0, 0, width-1, height-1, width, height ); } //----------------------------------------------------------------------------- // Draws the scene when there's no water or only cheap water //----------------------------------------------------------------------------- void CSimpleWorldView::Setup( const CViewSetup &simpleView, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t &waterInfo, ViewCustomVisibility_t *pCustomVisibility ) { BaseClass::Setup( simpleView ); m_ClearFlags = nClearFlags; m_DrawFlags = DF_DRAW_ENTITITES; if ( !waterInfo.m_bOpaqueWater ) { m_DrawFlags |= DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER; } else { bool bViewIntersectsWater = DoesViewPlaneIntersectWater( fogInfo.m_flWaterHeight, fogInfo.m_nVisibleFogVolume ); if( bViewIntersectsWater ) { // have to draw both sides if we can see both. m_DrawFlags |= DF_RENDER_UNDERWATER | DF_RENDER_ABOVEWATER; } else if ( fogInfo.m_bEyeInFogVolume ) { m_DrawFlags |= DF_RENDER_UNDERWATER; } else { m_DrawFlags |= DF_RENDER_ABOVEWATER; } } if ( waterInfo.m_bDrawWaterSurface ) { m_DrawFlags |= DF_RENDER_WATER; } if ( !fogInfo.m_bEyeInFogVolume && bDrawSkybox ) { m_DrawFlags |= DF_DRAWSKYBOX; } m_pCustomVisibility = pCustomVisibility; m_fogInfo = fogInfo; } //----------------------------------------------------------------------------- // Draws the scene when there's no water or only cheap water //----------------------------------------------------------------------------- void CSimpleWorldView::Draw() { VPROF( "CViewRender::ViewDrawScene_NoWater" ); CMatRenderContextPtr pRenderContext( materials ); PIXEVENT( pRenderContext, "CSimpleWorldView::Draw" ); #if defined( _X360 ) pRenderContext->PushVertexShaderGPRAllocation( 32 ); //lean toward pixel shader threads #endif pRenderContext.SafeRelease(); DrawSetup( 0, m_DrawFlags, 0 ); if ( !m_fogInfo.m_bEyeInFogVolume ) { EnableWorldFog(); } else { m_ClearFlags |= VIEW_CLEAR_COLOR; SetFogVolumeState( m_fogInfo, false ); pRenderContext.GetFrom( materials ); unsigned char ucFogColor[3]; pRenderContext->GetFogColor( ucFogColor ); pRenderContext->ClearColor4ub( ucFogColor[0], ucFogColor[1], ucFogColor[2], 255 ); } pRenderContext.SafeRelease(); DrawExecute( 0, CurrentViewID(), 0 ); pRenderContext.GetFrom( materials ); pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); #if defined( _X360 ) pRenderContext->PopVertexShaderGPRAllocation(); #endif } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CBaseWaterView::CalcWaterEyeAdjustments( const VisibleFogVolumeInfo_t &fogInfo, float &newWaterHeight, float &waterZAdjust, bool bSoftwareUserClipPlane ) { if( !bSoftwareUserClipPlane ) { newWaterHeight = fogInfo.m_flWaterHeight; waterZAdjust = 0.0f; return; } newWaterHeight = fogInfo.m_flWaterHeight; float eyeToWaterZDelta = origin[2] - fogInfo.m_flWaterHeight; float epsilon = r_eyewaterepsilon.GetFloat(); waterZAdjust = 0.0f; if( fabs( eyeToWaterZDelta ) < epsilon ) { if( eyeToWaterZDelta > 0 ) { newWaterHeight = origin[2] - epsilon; } else { newWaterHeight = origin[2] + epsilon; } waterZAdjust = newWaterHeight - fogInfo.m_flWaterHeight; } // Warning( "view.origin[2]: %f newWaterHeight: %f fogInfo.m_flWaterHeight: %f waterZAdjust: %f\n", // ( float )view.origin[2], newWaterHeight, fogInfo.m_flWaterHeight, waterZAdjust ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CBaseWaterView::CSoftwareIntersectionView::Setup( bool bAboveWater ) { BaseClass::Setup( *GetOuter() ); m_DrawFlags = 0; m_DrawFlags = ( bAboveWater ) ? DF_RENDER_UNDERWATER : DF_RENDER_ABOVEWATER; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CBaseWaterView::CSoftwareIntersectionView::Draw() { DrawSetup( GetOuter()->m_waterHeight, m_DrawFlags, GetOuter()->m_waterZAdjust ); DrawExecute( GetOuter()->m_waterHeight, CurrentViewID(), GetOuter()->m_waterZAdjust ); } //----------------------------------------------------------------------------- // Draws the scene when the view point is above the level of the water //----------------------------------------------------------------------------- void CAboveWaterView::Setup( const CViewSetup &viewRender, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t& waterInfo ) { BaseClass::Setup( viewRender ); m_bSoftwareUserClipPlane = g_pMaterialSystemHardwareConfig->UseFastClipping(); CalcWaterEyeAdjustments( fogInfo, m_waterHeight, m_waterZAdjust, m_bSoftwareUserClipPlane ); // BROKEN STUFF! if ( m_waterZAdjust == 0.0f ) { m_bSoftwareUserClipPlane = false; } m_DrawFlags = DF_RENDER_ABOVEWATER | DF_DRAW_ENTITITES; m_ClearFlags = VIEW_CLEAR_DEPTH; #ifdef PORTAL if( g_pPortalRender->ShouldObeyStencilForClears() ) m_ClearFlags |= VIEW_CLEAR_OBEY_STENCIL; #endif if ( bDrawSkybox ) { m_DrawFlags |= DF_DRAWSKYBOX; } if ( waterInfo.m_bDrawWaterSurface ) { m_DrawFlags |= DF_RENDER_WATER; } if ( !waterInfo.m_bRefract && !waterInfo.m_bOpaqueWater ) { m_DrawFlags |= DF_RENDER_UNDERWATER; } m_fogInfo = fogInfo; m_waterInfo = waterInfo; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::Draw() { VPROF( "CViewRender::ViewDrawScene_EyeAboveWater" ); // eye is outside of water CMatRenderContextPtr pRenderContext( materials ); // render the reflection if( m_waterInfo.m_bReflect ) { m_ReflectionView.Setup( m_waterInfo.m_bReflectEntities ); m_pMainView->AddViewToScene( &m_ReflectionView ); } bool bViewIntersectsWater = false; // render refraction if ( m_waterInfo.m_bRefract ) { m_RefractionView.Setup(); m_pMainView->AddViewToScene( &m_RefractionView ); if( !m_bSoftwareUserClipPlane ) { bViewIntersectsWater = DoesViewPlaneIntersectWater( m_fogInfo.m_flWaterHeight, m_fogInfo.m_nVisibleFogVolume ); } } else if ( !( m_DrawFlags & DF_DRAWSKYBOX ) ) { m_ClearFlags |= VIEW_CLEAR_COLOR; } #ifdef PORTAL if( g_pPortalRender->ShouldObeyStencilForClears() ) m_ClearFlags |= VIEW_CLEAR_OBEY_STENCIL; #endif // NOTE!!!!! YOU CAN ONLY DO THIS IF YOU HAVE HARDWARE USER CLIP PLANES!!!!!! bool bHardwareUserClipPlanes = !g_pMaterialSystemHardwareConfig->UseFastClipping(); if( bViewIntersectsWater && bHardwareUserClipPlanes ) { // This is necessary to keep the non-water fogged world from drawing underwater in // the case where we want to partially see into the water. m_DrawFlags |= DF_CLIP_Z | DF_CLIP_BELOW; } // render the world DrawSetup( m_waterHeight, m_DrawFlags, m_waterZAdjust ); EnableWorldFog(); DrawExecute( m_waterHeight, CurrentViewID(), m_waterZAdjust ); if ( m_waterInfo.m_bRefract ) { if ( m_bSoftwareUserClipPlane ) { m_SoftwareIntersectionView.Setup( true ); m_SoftwareIntersectionView.Draw( ); } else if ( bViewIntersectsWater ) { m_IntersectionView.Setup(); m_pMainView->AddViewToScene( &m_IntersectionView ); } } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CReflectionView::Setup( bool bReflectEntities ) { BaseClass::Setup( *GetOuter() ); m_ClearFlags = VIEW_CLEAR_DEPTH; // NOTE: Clearing the color is unnecessary since we're drawing the skybox // and dest-alpha is never used in the reflection m_DrawFlags = DF_RENDER_REFLECTION | DF_CLIP_Z | DF_CLIP_BELOW | DF_RENDER_ABOVEWATER; // NOTE: This will cause us to draw the 2d skybox in the reflection // (which we want to do instead of drawing the 3d skybox) m_DrawFlags |= DF_DRAWSKYBOX; if( bReflectEntities ) { m_DrawFlags |= DF_DRAW_ENTITITES; } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CReflectionView::Draw() { #ifdef PORTAL g_pPortalRender->WaterRenderingHandler_PreReflection(); #endif // Store off view origin and angles and set the new view int nSaveViewID = CurrentViewID(); SetupCurrentView( origin, angles, VIEW_REFLECTION ); // Disable occlusion visualization in reflection bool bVisOcclusion = r_visocclusion.GetInt(); r_visocclusion.SetValue( 0 ); DrawSetup( GetOuter()->m_fogInfo.m_flWaterHeight, m_DrawFlags, 0.0f, GetOuter()->m_fogInfo.m_nVisibleFogVolumeLeaf ); EnableWorldFog(); DrawExecute( GetOuter()->m_fogInfo.m_flWaterHeight, VIEW_REFLECTION, 0.0f ); r_visocclusion.SetValue( bVisOcclusion ); #ifdef PORTAL // deal with stencil g_pPortalRender->WaterRenderingHandler_PostReflection(); #endif // finish off the view and restore the previous view. SetupCurrentView( origin, angles, ( view_id_t )nSaveViewID ); // This is here for multithreading CMatRenderContextPtr pRenderContext( materials ); pRenderContext->Flush(); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CRefractionView::Setup() { BaseClass::Setup( *GetOuter() ); m_ClearFlags = VIEW_CLEAR_COLOR | VIEW_CLEAR_DEPTH; m_DrawFlags = DF_RENDER_REFRACTION | DF_CLIP_Z | DF_RENDER_UNDERWATER | DF_FUDGE_UP | DF_DRAW_ENTITITES ; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CRefractionView::Draw() { #ifdef PORTAL g_pPortalRender->WaterRenderingHandler_PreRefraction(); #endif // Store off view origin and angles and set the new view int nSaveViewID = CurrentViewID(); SetupCurrentView( origin, angles, VIEW_REFRACTION ); DrawSetup( GetOuter()->m_waterHeight, m_DrawFlags, GetOuter()->m_waterZAdjust ); SetFogVolumeState( GetOuter()->m_fogInfo, true ); SetClearColorToFogColor(); DrawExecute( GetOuter()->m_waterHeight, VIEW_REFRACTION, GetOuter()->m_waterZAdjust ); #ifdef PORTAL // deal with stencil g_pPortalRender->WaterRenderingHandler_PostRefraction(); #endif // finish off the view. restore the previous view. SetupCurrentView( origin, angles, ( view_id_t )nSaveViewID ); // This is here for multithreading CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); pRenderContext->Flush(); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CIntersectionView::Setup() { BaseClass::Setup( *GetOuter() ); m_DrawFlags = DF_RENDER_UNDERWATER | DF_CLIP_Z | DF_DRAW_ENTITITES; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CAboveWaterView::CIntersectionView::Draw() { DrawSetup( GetOuter()->m_fogInfo.m_flWaterHeight, m_DrawFlags, 0 ); SetFogVolumeState( GetOuter()->m_fogInfo, true ); SetClearColorToFogColor( ); DrawExecute( GetOuter()->m_fogInfo.m_flWaterHeight, VIEW_NONE, 0 ); CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); } //----------------------------------------------------------------------------- // Draws the scene when the view point is under the level of the water //----------------------------------------------------------------------------- void CUnderWaterView::Setup( const CViewSetup &underView, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t& waterInfo ) { BaseClass::Setup( underView ); m_bSoftwareUserClipPlane = g_pMaterialSystemHardwareConfig->UseFastClipping(); CalcWaterEyeAdjustments( fogInfo, m_waterHeight, m_waterZAdjust, m_bSoftwareUserClipPlane ); IMaterial *pWaterMaterial = fogInfo.m_pFogVolumeMaterial; if (engine->GetDXSupportLevel() >= 90 ) // screen voerlays underwater are a dx9 feature { IMaterialVar *pScreenOverlayVar = pWaterMaterial->FindVar( "$underwateroverlay", NULL, false ); if ( pScreenOverlayVar && ( pScreenOverlayVar->IsDefined() ) ) { char const *pOverlayName = pScreenOverlayVar->GetStringValue(); if ( pOverlayName[0] != '0' ) // fixme!!! { IMaterial *pOverlayMaterial = materials->FindMaterial( pOverlayName, TEXTURE_GROUP_OTHER ); m_pMainView->SetWaterOverlayMaterial( pOverlayMaterial ); } } } // NOTE: We're not drawing the 2d skybox under water since it's assumed to not be visible. // render the world underwater // Clear the color to get the appropriate underwater fog color m_DrawFlags = DF_FUDGE_UP | DF_RENDER_UNDERWATER | DF_DRAW_ENTITITES; m_ClearFlags = VIEW_CLEAR_DEPTH; if( !m_bSoftwareUserClipPlane ) { m_DrawFlags |= DF_CLIP_Z; } if ( waterInfo.m_bDrawWaterSurface ) { m_DrawFlags |= DF_RENDER_WATER; } if ( !waterInfo.m_bRefract && !waterInfo.m_bOpaqueWater ) { m_DrawFlags |= DF_RENDER_ABOVEWATER; } m_fogInfo = fogInfo; m_waterInfo = waterInfo; m_bDrawSkybox = bDrawSkybox; } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CUnderWaterView::Draw() { // FIXME: The 3d skybox shouldn't be drawn when the eye is under water VPROF( "CViewRender::ViewDrawScene_EyeUnderWater" ); CMatRenderContextPtr pRenderContext( materials ); // render refraction (out of water) if ( m_waterInfo.m_bRefract ) { m_RefractionView.Setup( ); m_pMainView->AddViewToScene( &m_RefractionView ); } if ( !m_waterInfo.m_bRefract ) { SetFogVolumeState( m_fogInfo, true ); unsigned char ucFogColor[3]; pRenderContext->GetFogColor( ucFogColor ); pRenderContext->ClearColor4ub( ucFogColor[0], ucFogColor[1], ucFogColor[2], 255 ); } DrawSetup( m_waterHeight, m_DrawFlags, m_waterZAdjust ); SetFogVolumeState( m_fogInfo, false ); DrawExecute( m_waterHeight, CurrentViewID(), m_waterZAdjust ); m_ClearFlags = 0; if( m_waterZAdjust != 0.0f && m_bSoftwareUserClipPlane && m_waterInfo.m_bRefract ) { m_SoftwareIntersectionView.Setup( false ); m_SoftwareIntersectionView.Draw( ); } pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CUnderWaterView::CRefractionView::Setup() { BaseClass::Setup( *GetOuter() ); // NOTE: Refraction renders into the back buffer, over the top of the 3D skybox // It is then blitted out into the refraction target. This is so that // we only have to set up 3d sky vis once, and only render it once also! m_DrawFlags = DF_CLIP_Z | DF_CLIP_BELOW | DF_RENDER_ABOVEWATER | DF_DRAW_ENTITITES; m_ClearFlags = VIEW_CLEAR_DEPTH; if ( GetOuter()->m_bDrawSkybox ) { m_ClearFlags |= VIEW_CLEAR_COLOR; m_DrawFlags |= DF_DRAWSKYBOX | DF_CLIP_SKYBOX; } } //----------------------------------------------------------------------------- // //----------------------------------------------------------------------------- void CUnderWaterView::CRefractionView::Draw() { CMatRenderContextPtr pRenderContext( materials ); SetFogVolumeState( GetOuter()->m_fogInfo, true ); unsigned char ucFogColor[3]; pRenderContext->GetFogColor( ucFogColor ); pRenderContext->ClearColor4ub( ucFogColor[0], ucFogColor[1], ucFogColor[2], 255 ); DrawSetup( GetOuter()->m_waterHeight, m_DrawFlags, GetOuter()->m_waterZAdjust ); EnableWorldFog(); DrawExecute( GetOuter()->m_waterHeight, VIEW_REFRACTION, GetOuter()->m_waterZAdjust ); Rect_t srcRect; srcRect.x = x; srcRect.y = y; srcRect.width = width; srcRect.height = height; // Optionally write the rendered image to a debug texture if ( g_bDumpRenderTargets ) { DumpTGAofRenderTarget( width, height, "WaterRefract" ); } ITexture *pTexture = GetWaterRefractionTexture(); pRenderContext->CopyRenderTargetToTextureEx( pTexture, 0, &srcRect, NULL ); } //----------------------------------------------------------------------------- // // Reflective glass view starts here // //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // Draws the scene when the view contains reflective glass //----------------------------------------------------------------------------- void CReflectiveGlassView::Setup( const CViewSetup &viewRender, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t &waterInfo, const cplane_t &reflectionPlane ) { BaseClass::Setup( viewRender, nClearFlags, bDrawSkybox, fogInfo, waterInfo, NULL ); m_ReflectionPlane = reflectionPlane; } bool CReflectiveGlassView::AdjustView( float flWaterHeight ) { ITexture *pTexture = GetWaterReflectionTexture(); // Use the aspect ratio of the main view! So, don't recompute it here x = y = 0; width = pTexture->GetActualWidth(); height = pTexture->GetActualHeight(); // Reflect the camera origin + vectors around the reflection plane float flDist = DotProduct( origin, m_ReflectionPlane.normal ) - m_ReflectionPlane.dist; VectorMA( origin, - 2.0f * flDist, m_ReflectionPlane.normal, origin ); Vector vecForward, vecUp; AngleVectors( angles, &vecForward, NULL, &vecUp ); float flDot = DotProduct( vecForward, m_ReflectionPlane.normal ); VectorMA( vecForward, - 2.0f * flDot, m_ReflectionPlane.normal, vecForward ); flDot = DotProduct( vecUp, m_ReflectionPlane.normal ); VectorMA( vecUp, - 2.0f * flDot, m_ReflectionPlane.normal, vecUp ); VectorAngles( vecForward, vecUp, angles ); return true; } void CReflectiveGlassView::PushView( float waterHeight ) { render->Push3DView( *this, m_ClearFlags, GetWaterReflectionTexture(), GetFrustum() ); Vector4D plane; VectorCopy( m_ReflectionPlane.normal, plane.AsVector3D() ); plane.w = m_ReflectionPlane.dist + 0.1f; CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PushCustomClipPlane( plane.Base() ); } void CReflectiveGlassView::PopView( ) { CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PopCustomClipPlane( ); render->PopView( GetFrustum() ); } //----------------------------------------------------------------------------- // Renders reflective or refractive parts of glass //----------------------------------------------------------------------------- void CReflectiveGlassView::Draw() { VPROF( "CReflectiveGlassView::Draw" ); CMatRenderContextPtr pRenderContext( materials ); PIXEVENT( pRenderContext, "CReflectiveGlassView::Draw" ); // Disable occlusion visualization in reflection bool bVisOcclusion = r_visocclusion.GetInt(); r_visocclusion.SetValue( 0 ); BaseClass::Draw(); r_visocclusion.SetValue( bVisOcclusion ); pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); pRenderContext->Flush(); } //----------------------------------------------------------------------------- // Draws the scene when the view contains reflective glass //----------------------------------------------------------------------------- void CRefractiveGlassView::Setup( const CViewSetup &viewRender, int nClearFlags, bool bDrawSkybox, const VisibleFogVolumeInfo_t &fogInfo, const WaterRenderInfo_t &waterInfo, const cplane_t &reflectionPlane ) { BaseClass::Setup( viewRender, nClearFlags, bDrawSkybox, fogInfo, waterInfo, NULL ); m_ReflectionPlane = reflectionPlane; } bool CRefractiveGlassView::AdjustView( float flWaterHeight ) { ITexture *pTexture = GetWaterRefractionTexture(); // Use the aspect ratio of the main view! So, don't recompute it here x = y = 0; width = pTexture->GetActualWidth(); height = pTexture->GetActualHeight(); return true; } void CRefractiveGlassView::PushView( float waterHeight ) { render->Push3DView( *this, m_ClearFlags, GetWaterRefractionTexture(), GetFrustum() ); Vector4D plane; VectorMultiply( m_ReflectionPlane.normal, -1, plane.AsVector3D() ); plane.w = -m_ReflectionPlane.dist + 0.1f; CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PushCustomClipPlane( plane.Base() ); } void CRefractiveGlassView::PopView( ) { CMatRenderContextPtr pRenderContext( materials ); pRenderContext->PopCustomClipPlane( ); render->PopView( GetFrustum() ); } //----------------------------------------------------------------------------- // Renders reflective or refractive parts of glass //----------------------------------------------------------------------------- void CRefractiveGlassView::Draw() { VPROF( "CRefractiveGlassView::Draw" ); CMatRenderContextPtr pRenderContext( materials ); PIXEVENT( pRenderContext, "CRefractiveGlassView::Draw" ); BaseClass::Draw(); pRenderContext->ClearColor4ub( 0, 0, 0, 255 ); pRenderContext->Flush(); }