//========= Copyright 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #ifndef INCREMENTAL_H #define INCREMENTAL_H #ifdef _WIN32 #pragma once #endif #include "iincremental.h" #include "utllinkedlist.h" #include "utlvector.h" #include "utlbuffer.h" #include "vrad.h" #define INCREMENTALFILE_VERSION 31241 class CIncLight; class CLightValue { public: float m_Dot; }; class CLightFace { public: unsigned short m_FaceIndex; // global face index unsigned short m_LightFacesIndex; // index into CIncLight::m_LightFaces. // The lightmap grid for this face. Only used while building lighting data for a face. // Compressed into m_CompressedData immediately afterwards. CUtlVector<CLightValue> m_LightValues; CUtlBuffer m_CompressedData; CIncLight *m_pLight; }; class CIncLight { public: CIncLight(); ~CIncLight(); CLightFace* FindOrCreateLightFace( int iFace, int lmSize, bool *bNew=NULL ); public: CRITICAL_SECTION m_CS; // This is the light for which m_LightFaces was built. dworldlight_t m_Light; CLightFace *m_pCachedFaces[MAX_TOOL_THREADS+1]; // The list of faces that this light contributes to. CUtlLinkedList<CLightFace*, unsigned short> m_LightFaces; // Largest value in intensity of light. Used to scale dot products up into a // range where their values make sense. float m_flMaxIntensity; }; class CIncrementalHeader { public: class CLMSize { public: unsigned char m_Width; unsigned char m_Height; }; CUtlVector<CLMSize> m_FaceLightmapSizes; }; class CIncremental : public IIncremental { public: CIncremental(); ~CIncremental(); // IIncremental overrides. public: virtual bool Init( char const *pBSPFilename, char const *pIncrementalFilename ); // Load the light definitions out of the incremental file. // Figure out which lights have changed. // Change 'activelights' to only consist of new or changed lights. virtual bool PrepareForLighting(); virtual void AddLightToFace( IncrementalLightID lightID, int iFace, int iSample, int lmSize, float dot, int iThread ); virtual void FinishFace( IncrementalLightID lightID, int iFace, int iThread ); // For each face that was changed during the lighting process, save out // new data for it in the incremental file. virtual bool Finalize(); virtual void GetFacesTouched( CUtlVector<unsigned char> &touched ); virtual bool Serialize(); private: // Read/write the header from the file. bool ReadIncrementalHeader( long fp, CIncrementalHeader *pHeader ); bool WriteIncrementalHeader( long fp ); // Returns true if the incremental file is valid and we can use InitUpdate. bool IsIncrementalFileValid(); void Term(); // For each light in 'activelights', add a light to m_Lights and link them together. void AddLightsForActiveLights(); // Load and save the state. bool LoadIncrementalFile(); bool SaveIncrementalFile(); typedef CUtlVector<CLightFace*> CFaceLightList; void LinkLightsToFaces( CUtlVector<CFaceLightList> &faceLights ); private: char const *m_pIncrementalFilename; char const *m_pBSPFilename; CUtlLinkedList<CIncLight*, IncrementalLightID> m_Lights; // The face index is set to 1 if a face has new lighting data applied to it. // This is used to optimize the set of lightmaps we recomposite. CUtlVector<unsigned char> m_FacesTouched; int m_TotalMemory; // Set to true when one or more runs were completed successfully. bool m_bSuccessfulRun; }; #endif // INCREMENTAL_H
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |