//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: Model loading / unloading interface // // $NoKeywords: $ //===========================================================================// #include "render_pch.h" #include "common.h" #include "modelloader.h" #include "sysexternal.h" #include "cmd.h" #include "istudiorender.h" #include "engine/ivmodelinfo.h" #include "draw.h" #include "zone.h" #include "edict.h" #include "cmodel_engine.h" #include "cdll_engine_int.h" #include "iscratchpad3d.h" #include "materialsystem/imaterialsystemhardwareconfig.h" #include "materialsystem/materialsystem_config.h" #include "gl_rsurf.h" #include "video/ivideoservices.h" #include "materialsystem/itexture.h" #include "Overlay.h" #include "utldict.h" #include "mempool.h" #include "r_decal.h" #include "l_studio.h" #include "gl_drawlights.h" #include "tier0/icommandline.h" #include "MapReslistGenerator.h" #ifndef SWDS #include "vgui_baseui_interface.h" #endif #include "engine/ivmodelrender.h" #include "host.h" #include "datacache/idatacache.h" #include "sys_dll.h" #include "datacache/imdlcache.h" #include "gl_cvars.h" #include "vphysics_interface.h" #include "filesystem/IQueuedLoader.h" #include "tier2/tier2.h" #include "lightcache.h" #include "lumpfiles.h" #include "tier2/fileutils.h" #include "UtlSortVector.h" #include "utlhashtable.h" #include "tier1/lzmaDecoder.h" #include "eiface.h" #include "server.h" #include "ifilelist.h" #include "LoadScreenUpdate.h" #include "optimize.h" #include "networkstringtable.h" #include "tier1/callqueue.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" ConVar mat_loadtextures( "mat_loadtextures", "1", FCVAR_CHEAT ); // OS X and Linux are blowing up right now due to this. Benefits vs possible regressions on DX less clear. #if defined( DX_TO_GL_ABSTRACTION ) || defined( STAGING_ONLY ) #define CONVAR_DEFAULT_MOD_OFFLINE_HDR_SWITCH "1" #else #define CONVAR_DEFAULT_MOD_OFFLINE_HDR_SWITCH "0" #endif static ConVar mod_offline_hdr_switch( "mod_offline_hdr_switch", CONVAR_DEFAULT_MOD_OFFLINE_HDR_SWITCH, FCVAR_INTERNAL_USE, "Re-order the HDR/LDR mode switch to do most of the material system " "reloading with the device offline. This reduces unnecessary device " "resource uploads and may drastically reduce load time and memory pressure " "on certain drivers, but may trigger bugs in some very old source engine " "pathways." ); static ConVar mod_touchalldata( "mod_touchalldata", "1", 0, "Touch model data during level startup" ); static ConVar mod_forcetouchdata( "mod_forcetouchdata", "1", 0, "Forces all model file data into cache on model load." ); ConVar mat_excludetextures( "mat_excludetextures", "0", FCVAR_CHEAT ); ConVar r_unloadlightmaps( "r_unloadlightmaps", "0", FCVAR_CHEAT ); ConVar r_hunkalloclightmaps( "r_hunkalloclightmaps", "1" ); extern ConVar r_lightcache_zbuffercache; static ConVar mod_dynamicunloadtime( "mod_dynamicunloadtime", "150", FCVAR_HIDDEN | FCVAR_DONTRECORD ); static ConVar mod_dynamicunloadtextures( "mod_dynamicunloadtex", "1", FCVAR_HIDDEN | FCVAR_DONTRECORD ); static ConVar mod_dynamicloadpause( "mod_dynamicloadpause", "0", FCVAR_CHEAT | FCVAR_HIDDEN | FCVAR_DONTRECORD ); static ConVar mod_dynamicloadthrottle( "mod_dynamicloadthrottle", "0", FCVAR_CHEAT | FCVAR_HIDDEN | FCVAR_DONTRECORD ); static ConVar mod_dynamicloadspew( "mod_dynamicloadspew", "0", FCVAR_HIDDEN | FCVAR_DONTRECORD ); #define DynamicModelDebugMsg(...) ( mod_dynamicloadspew.GetBool() ? Msg(__VA_ARGS__) : (void)0 ) bool g_bHunkAllocLightmaps; extern CGlobalVars g_ServerGlobalVariables; extern IMaterial *g_materialEmpty; extern ConVar r_rootlod; bool g_bLoadedMapHasBakedPropLighting = false; bool g_bBakedPropLightingNoSeparateHDR = false; // Some maps only have HDR lighting on props, contained in the file for non-hdr light data double g_flAccumulatedModelLoadTime; double g_flAccumulatedModelLoadTimeStudio; double g_flAccumulatedModelLoadTimeStaticMesh; double g_flAccumulatedModelLoadTimeBrush; double g_flAccumulatedModelLoadTimeSprite; double g_flAccumulatedModelLoadTimeVCollideSync; double g_flAccumulatedModelLoadTimeVCollideAsync; double g_flAccumulatedModelLoadTimeVirtualModel; double g_flAccumulatedModelLoadTimeMaterialNamesOnly; //----------------------------------------------------------------------------- // A dictionary used to store where to find game lump data in the .bsp file //----------------------------------------------------------------------------- // Extended from the on-disk struct to include uncompressed size and stop propagation of bogus signed values struct dgamelump_internal_t { dgamelump_internal_t( dgamelump_t &other, unsigned int nCompressedSize ) : id( other.id ) , flags( other.flags ) , version( other.version ) , offset( Max( other.fileofs, 0 ) ) , uncompressedSize( Max( other.filelen, 0 ) ) , compressedSize( nCompressedSize ) {} GameLumpId_t id; unsigned short flags; unsigned short version; unsigned int offset; unsigned int uncompressedSize; unsigned int compressedSize; }; static CUtlVector< dgamelump_internal_t > g_GameLumpDict; static char g_GameLumpFilename[128] = { 0 }; //void NotifyHunkBeginMapLoad( const char *pszMapName ) //{ // Hunk_OnMapStart( 32*1024*1024 ); //} // FIXME/TODO: Right now Host_FreeToLowMark unloads all models including studio // models that have Cache_Alloc data, too. This needs to be fixed before shipping BEGIN_BYTESWAP_DATADESC( lump_t ) DEFINE_FIELD( fileofs, FIELD_INTEGER ), DEFINE_FIELD( filelen, FIELD_INTEGER ), DEFINE_FIELD( version, FIELD_INTEGER ), DEFINE_FIELD( uncompressedSize, FIELD_INTEGER ), END_BYTESWAP_DATADESC() BEGIN_BYTESWAP_DATADESC( dheader_t ) DEFINE_FIELD( ident, FIELD_INTEGER ), DEFINE_FIELD( version, FIELD_INTEGER ), DEFINE_EMBEDDED_ARRAY( lumps, HEADER_LUMPS ), DEFINE_FIELD( mapRevision, FIELD_INTEGER ), END_BYTESWAP_DATADESC() bool Model_LessFunc( FileNameHandle_t const &a, FileNameHandle_t const &b ) { return a < b; } //----------------------------------------------------------------------------- // Purpose: Implements IModelLoader //----------------------------------------------------------------------------- class CModelLoader : public IModelLoader { // Implement IModelLoader interface public: CModelLoader() : m_ModelPool( sizeof( model_t ), MAX_KNOWN_MODELS, CUtlMemoryPool::GROW_FAST, "CModelLoader::m_ModelPool" ), m_Models( 0, 0, Model_LessFunc ) { } void Init( void ); void Shutdown( void ); int GetCount( void ); model_t *GetModelForIndex( int i ); // Look up name for model const char *GetName( model_t const *model ); // Check cache for data, reload model if needed void *GetExtraData( model_t *model ); int GetModelFileSize( char const *name ); // Finds the model, and loads it if it isn't already present. Updates reference flags model_t *GetModelForName( const char *name, REFERENCETYPE referencetype ); // Mark as referenced by name model_t *ReferenceModel( const char *name, REFERENCETYPE referencetype ); // Unmasks the referencetype field for the model void UnreferenceModel( model_t *model, REFERENCETYPE referencetype ); // Unmasks the specified reference type across all models void UnreferenceAllModels( REFERENCETYPE referencetype ); // Set all models to last loaded on server count -1 void ResetModelServerCounts(); // For any models with referencetype blank, frees all memory associated with the model // and frees up the models slot void UnloadUnreferencedModels( void ); void PurgeUnusedModels( void ); bool Map_GetRenderInfoAllocated( void ); void Map_SetRenderInfoAllocated( bool allocated ); virtual void Map_LoadDisplacements( model_t *pModel, bool bRestoring ); // Validate version/header of a .bsp file bool Map_IsValid( char const *mapname, bool bQuiet = false ); virtual void RecomputeSurfaceFlags( model_t *mod ); virtual void Studio_ReloadModels( ReloadType_t reloadType ); void Print( void ); // Is a model loaded? virtual bool IsLoaded( const model_t *mod ); virtual bool LastLoadedMapHasHDRLighting(void); void DumpVCollideStats(); // Returns the map model, otherwise NULL, no load or create model_t *FindModelNoCreate( const char *pModelName ); // Finds the model, builds a model entry if not present model_t *FindModel( const char *name ); modtype_t GetTypeFromName( const char *pModelName ); // start with -1, list terminates with -1 int FindNext( int iIndex, model_t **ppModel ); virtual void UnloadModel( model_t *pModel ); virtual void ReloadFilesInList( IFileList *pFilesToReload ); virtual const char *GetActiveMapName( void ); // Called by app system once per frame to poll and update dynamic models virtual void UpdateDynamicModels() { InternalUpdateDynamicModels(false); } // Called by server and client engine code to flush unreferenced dynamic models virtual void FlushDynamicModels() { InternalUpdateDynamicModels(true); } // Called by server and client to force-unload dynamic models regardless of refcount! virtual void ForceUnloadNonClientDynamicModels(); // Called by client code to load dynamic models, instead of GetModelForName. virtual model_t *GetDynamicModel( const char *name, bool bClientOnly ); // Called by client code to query dynamic model state virtual bool IsDynamicModelLoading( model_t *pModel, bool bClientOnly ); // Called by client code to refcount dynamic models virtual void AddRefDynamicModel( model_t *pModel, bool bClientSideRef ); virtual void ReleaseDynamicModel( model_t *pModel, bool bClientSideRef ); // Called by client code or GetDynamicModel virtual bool RegisterModelLoadCallback( model_t *pModel, bool bClientOnly, IModelLoadCallback *pCallback, bool bCallImmediatelyIfLoaded ); // Called by client code or IModelLoadCallback destructor virtual void UnregisterModelLoadCallback( model_t *pModel, bool bClientOnly, IModelLoadCallback *pCallback ); virtual void Client_OnServerModelStateChanged( model_t *pModel, bool bServerLoaded ); void DebugPrintDynamicModels(); // Internal types private: // TODO, flag these and allow for UnloadUnreferencedModels to check for allocation type // so we don't have to flush all of the studio models when we free the hunk enum { FALLOC_USESHUNKALLOC = (1<<31), FALLOC_USESCACHEALLOC = (1<<30), }; // Internal methods private: // Set reference flags and load model if it's not present already model_t *LoadModel( model_t *model, REFERENCETYPE *referencetype ); // Unload models ( won't unload referenced models if checkreferences is true ) void UnloadAllModels( bool checkreference ); void SetupSubModels( model_t *model, CUtlVector &list ); // World/map void Map_LoadModel( model_t *mod ); void Map_UnloadModel( model_t *mod ); void Map_UnloadCubemapSamples( model_t *mod ); // World loading helper void SetWorldModel( model_t *mod ); void ClearWorldModel( void ); bool IsWorldModelSet( void ); int GetNumWorldSubmodels( void ); // Sprites void Sprite_LoadModel( model_t *mod ); void Sprite_UnloadModel( model_t *mod ); // Studio models void Studio_LoadModel( model_t *mod, bool bTouchAllData ); void Studio_UnloadModel( model_t *mod ); // Byteswap int UpdateOrCreate( const char *pSourceName, char *pTargetName, int maxLen, bool bForce ); // Dynamic load queue class CDynamicModelInfo; void QueueDynamicModelLoad( CDynamicModelInfo *dyn, model_t *mod ); bool CancelDynamicModelLoad( CDynamicModelInfo *dyn, model_t *mod ); void UpdateDynamicModelLoadQueue(); void FinishDynamicModelLoadIfReady( CDynamicModelInfo *dyn, model_t *mod ); void InternalUpdateDynamicModels( bool bIgnoreUpdateTime ); // Internal data private: enum { MAX_KNOWN_MODELS = 1024, }; struct ModelEntry_t { model_t *modelpointer; }; CUtlMap< FileNameHandle_t, ModelEntry_t > m_Models; CUtlMemoryPool m_ModelPool; CUtlVector m_InlineModels; model_t *m_pWorldModel; public: // HACKHACK worldbrushdata_t m_worldBrushData; private: // local name of current loading model char m_szLoadName[64]; bool m_bMapRenderInfoLoaded; bool m_bMapHasHDRLighting; char m_szActiveMapName[64]; // Dynamic model support: class CDynamicModelInfo { public: enum { QUEUED = 0x01, LOADING = 0x02, CLIENTREADY = 0x04, SERVERLOADING = 0x08, ALLREADY = 0x10, INVALIDFLAG = 0x20 }; // flags CDynamicModelInfo() : m_iRefCount(0), m_iClientRefCount(0), m_nLoadFlags(INVALIDFLAG), m_uLastTouchedMS_Div256(0) { } int16 m_iRefCount; int16 m_iClientRefCount; // also doublecounted in m_iRefCount uint32 m_nLoadFlags : 8; uint32 m_uLastTouchedMS_Div256 : 24; CUtlVector< uintptr_t > m_Callbacks; // low bit = client only }; CUtlHashtable< model_t * , CDynamicModelInfo > m_DynamicModels; CUtlHashtable< uintptr_t , int > m_RegisteredDynamicCallbacks; // Dynamic model load queue CUtlVector< model_t* > m_DynamicModelLoadQueue; bool m_bDynamicLoadQueueHeadActive; }; // Expose interface static CModelLoader g_ModelLoader; IModelLoader *modelloader = ( IModelLoader * )&g_ModelLoader; //----------------------------------------------------------------------------- // Globals used by the CMapLoadHelper //----------------------------------------------------------------------------- static dheader_t s_MapHeader; static FileHandle_t s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; static char s_szLoadName[128]; static char s_szMapName[128]; static worldbrushdata_t *s_pMap = NULL; static int s_nMapLoadRecursion = 0; static CUtlBuffer s_MapBuffer; // Lump files are patches for a shipped map // List of lump files found when map was loaded. Each entry is the lump file index for that lump id. struct lumpfiles_t { FileHandle_t file; int lumpfileindex; lumpfileheader_t header; }; static lumpfiles_t s_MapLumpFiles[ HEADER_LUMPS ]; CON_COMMAND( mem_vcollide, "Dumps the memory used by vcollides" ) { g_ModelLoader.DumpVCollideStats(); } //----------------------------------------------------------------------------- // Returns the ref count for this bsp //----------------------------------------------------------------------------- int CMapLoadHelper::GetRefCount() { return s_nMapLoadRecursion; } //----------------------------------------------------------------------------- // Setup a BSP loading context, maintains a ref count. //----------------------------------------------------------------------------- void CMapLoadHelper::Init( model_t *pMapModel, const char *loadname ) { if ( ++s_nMapLoadRecursion > 1 ) { return; } s_pMap = NULL; s_szLoadName[ 0 ] = 0; s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; V_memset( &s_MapHeader, 0, sizeof( s_MapHeader ) ); V_memset( &s_MapLumpFiles, 0, sizeof( s_MapLumpFiles ) ); if ( !pMapModel ) { V_strcpy_safe( s_szMapName, loadname ); } else { V_strcpy_safe( s_szMapName, pMapModel->strName ); } s_MapFileHandle = g_pFileSystem->OpenEx( s_szMapName, "rb", IsX360() ? FSOPEN_NEVERINPACK : 0, IsX360() ? "GAME" : NULL ); if ( s_MapFileHandle == FILESYSTEM_INVALID_HANDLE ) { Host_Error( "CMapLoadHelper::Init, unable to open %s\n", s_szMapName ); return; } g_pFileSystem->Read( &s_MapHeader, sizeof( dheader_t ), s_MapFileHandle ); if ( s_MapHeader.ident != IDBSPHEADER ) { g_pFileSystem->Close( s_MapFileHandle ); s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; Host_Error( "CMapLoadHelper::Init, map %s has wrong identifier\n", s_szMapName ); return; } if ( s_MapHeader.version < MINBSPVERSION || s_MapHeader.version > BSPVERSION ) { g_pFileSystem->Close( s_MapFileHandle ); s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; Host_Error( "CMapLoadHelper::Init, map %s has wrong version (%i when expecting %i)\n", s_szMapName, s_MapHeader.version, BSPVERSION ); return; } V_strcpy_safe( s_szLoadName, loadname ); // Store map version, but only do it once so that the communication between the engine and Hammer isn't broken. The map version // is incremented whenever a Hammer to Engine session is established so resetting the global map version each time causes a problem. if ( 0 == g_ServerGlobalVariables.mapversion ) { g_ServerGlobalVariables.mapversion = s_MapHeader.mapRevision; } #ifndef SWDS InitDLightGlobals( s_MapHeader.version ); #endif s_pMap = &g_ModelLoader.m_worldBrushData; #if 0 // XXX(johns): There are security issues with this system currently. sv_pure doesn't handle unexpected/mismatched // lumps, so players can create lumps for maps not using them to wallhack/etc.. Currently unused, // disabling until we have time to make a proper security pass. if ( IsPC() ) { // Now find and open our lump files, and create the master list of them. for ( int iIndex = 0; iIndex < MAX_LUMPFILES; iIndex++ ) { lumpfileheader_t lumpHeader; char lumpfilename[MAX_PATH]; GenerateLumpFileName( s_szMapName, lumpfilename, MAX_PATH, iIndex ); if ( !g_pFileSystem->FileExists( lumpfilename ) ) break; // Open the lump file FileHandle_t lumpFile = g_pFileSystem->Open( lumpfilename, "rb" ); if ( lumpFile == FILESYSTEM_INVALID_HANDLE ) { Host_Error( "CMapLoadHelper::Init, failed to load lump file %s\n", lumpfilename ); return; } // Read the lump header memset( &lumpHeader, 0, sizeof( lumpHeader ) ); g_pFileSystem->Read( &lumpHeader, sizeof( lumpfileheader_t ), lumpFile ); if ( lumpHeader.lumpID >= 0 && lumpHeader.lumpID < HEADER_LUMPS ) { // We may find multiple lump files for the same lump ID. If so, // close the earlier lump file, because the later one overwrites it. if ( s_MapLumpFiles[lumpHeader.lumpID].file != FILESYSTEM_INVALID_HANDLE ) { g_pFileSystem->Close( s_MapLumpFiles[lumpHeader.lumpID].file ); } s_MapLumpFiles[lumpHeader.lumpID].file = lumpFile; s_MapLumpFiles[lumpHeader.lumpID].lumpfileindex = iIndex; memcpy( &(s_MapLumpFiles[lumpHeader.lumpID].header), &lumpHeader, sizeof(lumpHeader) ); } else { Warning("Found invalid lump file '%s'. Lump Id: %d\n", lumpfilename, lumpHeader.lumpID ); } } } #endif } //----------------------------------------------------------------------------- // Setup a BSP loading context from a supplied buffer //----------------------------------------------------------------------------- void CMapLoadHelper::InitFromMemory( model_t *pMapModel, const void *pData, int nDataSize ) { // valid for 360 only // 360 has reorganized bsp format and no external lump files Assert( IsX360() && pData && nDataSize ); if ( ++s_nMapLoadRecursion > 1 ) { return; } s_pMap = NULL; s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; V_memset( &s_MapHeader, 0, sizeof( s_MapHeader ) ); V_memset( &s_MapLumpFiles, 0, sizeof( s_MapLumpFiles ) ); V_strcpy_safe( s_szMapName, pMapModel->strName ); V_FileBase( s_szMapName, s_szLoadName, sizeof( s_szLoadName ) ); s_MapBuffer.SetExternalBuffer( (void *)pData, nDataSize, nDataSize ); V_memcpy( &s_MapHeader, pData, sizeof( dheader_t ) ); if ( s_MapHeader.ident != IDBSPHEADER ) { Host_Error( "CMapLoadHelper::Init, map %s has wrong identifier\n", s_szMapName ); return; } if ( s_MapHeader.version < MINBSPVERSION || s_MapHeader.version > BSPVERSION ) { Host_Error( "CMapLoadHelper::Init, map %s has wrong version (%i when expecting %i)\n", s_szMapName, s_MapHeader.version, BSPVERSION ); return; } // Store map version g_ServerGlobalVariables.mapversion = s_MapHeader.mapRevision; #ifndef SWDS InitDLightGlobals( s_MapHeader.version ); #endif s_pMap = &g_ModelLoader.m_worldBrushData; } //----------------------------------------------------------------------------- // Shutdown a BSP loading context. //----------------------------------------------------------------------------- void CMapLoadHelper::Shutdown( void ) { if ( --s_nMapLoadRecursion > 0 ) { return; } if ( s_MapFileHandle != FILESYSTEM_INVALID_HANDLE ) { g_pFileSystem->Close( s_MapFileHandle ); s_MapFileHandle = FILESYSTEM_INVALID_HANDLE; } if ( IsPC() ) { // Close our open lump files for ( int i = 0; i < HEADER_LUMPS; i++ ) { if ( s_MapLumpFiles[i].file != FILESYSTEM_INVALID_HANDLE ) { g_pFileSystem->Close( s_MapLumpFiles[i].file ); } } V_memset( &s_MapLumpFiles, 0, sizeof( s_MapLumpFiles ) ); } s_szLoadName[ 0 ] = 0; V_memset( &s_MapHeader, 0, sizeof( s_MapHeader ) ); s_pMap = NULL; // discard from memory if ( s_MapBuffer.Base() ) { free( s_MapBuffer.Base() ); s_MapBuffer.SetExternalBuffer( NULL, 0, 0 ); } } //----------------------------------------------------------------------------- // Free the lighting lump (increases free memory during loading on 360) //----------------------------------------------------------------------------- void CMapLoadHelper::FreeLightingLump( void ) { if ( IsX360() && ( s_MapFileHandle == FILESYSTEM_INVALID_HANDLE ) && s_MapBuffer.Base() ) { int lightingLump = LumpSize( LUMP_LIGHTING_HDR ) ? LUMP_LIGHTING_HDR : LUMP_LIGHTING; // Should never have both lighting lumps on 360 Assert( ( lightingLump == LUMP_LIGHTING ) || ( LumpSize( LUMP_LIGHTING ) == 0 ) ); if ( LumpSize( lightingLump ) ) { // Check that the lighting lump is the last one in the BSP int lightingOffset = LumpOffset( lightingLump ); for ( int i = 0;i < HEADER_LUMPS; i++ ) { if ( ( LumpOffset( i ) > lightingOffset ) && ( i != LUMP_PAKFILE ) ) { Warning( "CMapLoadHelper: Cannot free lighting lump (should be last before the PAK lump). Regenerate the .360.bsp file with the latest version of makegamedata." ); return; } } // Flag the lighting chunk as gone from the BSP (principally, this sets 'filelen' to 0) V_memset( &s_MapHeader.lumps[ lightingLump ], 0, sizeof( lump_t ) ); // Shrink the buffer to free up the space that was used by the lighting lump void * shrunkBuffer = realloc( s_MapBuffer.Base(), lightingOffset ); Assert( shrunkBuffer == s_MapBuffer.Base() ); // A shrink would surely never move!!! s_MapBuffer.SetExternalBuffer( shrunkBuffer, lightingOffset, lightingOffset ); } } } //----------------------------------------------------------------------------- // Returns the size of a particular lump without loading it... //----------------------------------------------------------------------------- int CMapLoadHelper::LumpSize( int lumpId ) { // If we have a lump file for this lump, return its length instead if ( IsPC() && s_MapLumpFiles[lumpId].file != FILESYSTEM_INVALID_HANDLE ) { return s_MapLumpFiles[lumpId].header.lumpLength; } lump_t *pLump = &s_MapHeader.lumps[ lumpId ]; Assert( pLump ); // all knowledge of compression is private, they expect and get the original size int originalSize = s_MapHeader.lumps[lumpId].uncompressedSize; if ( originalSize != 0 ) { return originalSize; } return pLump->filelen; } //----------------------------------------------------------------------------- // Returns the offset of a particular lump without loading it... //----------------------------------------------------------------------------- int CMapLoadHelper::LumpOffset( int lumpID ) { // If we have a lump file for this lump, return // the offset to move past the lump file header. if ( IsPC() && s_MapLumpFiles[lumpID].file != FILESYSTEM_INVALID_HANDLE ) { return s_MapLumpFiles[lumpID].header.lumpOffset; } lump_t *pLump = &s_MapHeader.lumps[ lumpID ]; Assert( pLump ); return pLump->fileofs; } //----------------------------------------------------------------------------- // Loads one element in a lump. //----------------------------------------------------------------------------- void CMapLoadHelper::LoadLumpElement( int nElemIndex, int nElemSize, void *pData ) { if ( !nElemSize || !m_nLumpSize ) { return; } // supply from memory if ( nElemIndex * nElemSize + nElemSize <= m_nLumpSize ) { V_memcpy( pData, m_pData + nElemIndex * nElemSize, nElemSize ); } else { // out of range Assert( 0 ); } } //----------------------------------------------------------------------------- // Loads one element in a lump. //----------------------------------------------------------------------------- void CMapLoadHelper::LoadLumpData( int offset, int size, void *pData ) { if ( !size || !m_nLumpSize ) { return; } if ( offset + size <= m_nLumpSize ) { V_memcpy( pData, m_pData + offset, size ); } else { // out of range Assert( 0 ); } } //----------------------------------------------------------------------------- // Purpose: // Input : mapfile - // lumpToLoad - //----------------------------------------------------------------------------- CMapLoadHelper::CMapLoadHelper( int lumpToLoad ) { if ( lumpToLoad < 0 || lumpToLoad >= HEADER_LUMPS ) { Sys_Error( "Can't load lump %i, range is 0 to %i!!!", lumpToLoad, HEADER_LUMPS - 1 ); } m_nLumpID = lumpToLoad; m_nLumpSize = 0; m_nLumpOffset = -1; m_pData = NULL; m_pRawData = NULL; m_pUncompressedData = NULL; // Load raw lump from disk lump_t *lump = &s_MapHeader.lumps[ lumpToLoad ]; Assert( lump ); m_nLumpSize = lump->filelen; m_nLumpOffset = lump->fileofs; m_nLumpVersion = lump->version; FileHandle_t fileToUse = s_MapFileHandle; // If we have a lump file for this lump, use it instead if ( IsPC() && s_MapLumpFiles[lumpToLoad].file != FILESYSTEM_INVALID_HANDLE ) { fileToUse = s_MapLumpFiles[lumpToLoad].file; m_nLumpSize = s_MapLumpFiles[lumpToLoad].header.lumpLength; m_nLumpOffset = s_MapLumpFiles[lumpToLoad].header.lumpOffset; m_nLumpVersion = s_MapLumpFiles[lumpToLoad].header.lumpVersion; // Store off the lump file name GenerateLumpFileName( s_szLoadName, m_szLumpFilename, MAX_PATH, s_MapLumpFiles[lumpToLoad].lumpfileindex ); } if ( !m_nLumpSize ) { // this lump has no data return; } if ( s_MapBuffer.Base() ) { // bsp is in memory m_pData = (unsigned char*)s_MapBuffer.Base() + m_nLumpOffset; } else { if ( s_MapFileHandle == FILESYSTEM_INVALID_HANDLE ) { Sys_Error( "Can't load map from invalid handle!!!" ); } unsigned nOffsetAlign, nSizeAlign, nBufferAlign; g_pFileSystem->GetOptimalIOConstraints( fileToUse, &nOffsetAlign, &nSizeAlign, &nBufferAlign ); bool bTryOptimal = ( m_nLumpOffset % 4 == 0 ); // Don't return badly aligned data unsigned int alignedOffset = m_nLumpOffset; unsigned int alignedBytesToRead = ( ( m_nLumpSize ) ? m_nLumpSize : 1 ); if ( bTryOptimal ) { alignedOffset = AlignValue( ( alignedOffset - nOffsetAlign ) + 1, nOffsetAlign ); alignedBytesToRead = AlignValue( ( m_nLumpOffset - alignedOffset ) + alignedBytesToRead, nSizeAlign ); } m_pRawData = (byte *)g_pFileSystem->AllocOptimalReadBuffer( fileToUse, alignedBytesToRead, alignedOffset ); if ( !m_pRawData && m_nLumpSize ) { Sys_Error( "Can't load lump %i, allocation of %i bytes failed!!!", lumpToLoad, m_nLumpSize + 1 ); } if ( m_nLumpSize ) { g_pFileSystem->Seek( fileToUse, alignedOffset, FILESYSTEM_SEEK_HEAD ); g_pFileSystem->ReadEx( m_pRawData, alignedBytesToRead, alignedBytesToRead, fileToUse ); m_pData = m_pRawData + ( m_nLumpOffset - alignedOffset ); } } if ( lump->uncompressedSize != 0 ) { // Handle compressed lump -- users of the class see the uncompressed data AssertMsg( CLZMA::IsCompressed( m_pData ), "Lump claims to be compressed but is not recognized as LZMA" ); m_nLumpSize = CLZMA::GetActualSize( m_pData ); AssertMsg( lump->uncompressedSize == m_nLumpSize, "Lump header disagrees with lzma header for compressed lump" ); m_pUncompressedData = (unsigned char *)malloc( m_nLumpSize ); CLZMA::Uncompress( m_pData, m_pUncompressedData ); m_pData = m_pUncompressedData; } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- CMapLoadHelper::~CMapLoadHelper( void ) { if ( m_pUncompressedData ) { free( m_pUncompressedData ); } if ( m_pRawData ) { g_pFileSystem->FreeOptimalReadBuffer( m_pRawData ); } } //----------------------------------------------------------------------------- // Purpose: // Output : model_t //----------------------------------------------------------------------------- worldbrushdata_t *CMapLoadHelper::GetMap( void ) { Assert( s_pMap ); return s_pMap; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CMapLoadHelper::GetMapName( void ) { return s_szMapName; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- char *CMapLoadHelper::GetLoadName( void ) { // If we have a custom lump file for the lump this helper // is loading, return it instead. if ( IsPC() && s_MapLumpFiles[m_nLumpID].file != FILESYSTEM_INVALID_HANDLE ) { return m_szLumpFilename; } return s_szLoadName; } //----------------------------------------------------------------------------- // Purpose: // Output : byte //----------------------------------------------------------------------------- byte *CMapLoadHelper::LumpBase( void ) { return m_pData; } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CMapLoadHelper::LumpSize() { return m_nLumpSize; } int CMapLoadHelper::LumpOffset() { return m_nLumpOffset; } int CMapLoadHelper::LumpVersion() const { return m_nLumpVersion; } void EnableHDR( bool bEnable ) { if ( g_pMaterialSystemHardwareConfig->GetHDREnabled() == bEnable ) return; g_pMaterialSystemHardwareConfig->SetHDREnabled( bEnable ); if ( IsX360() ) { // cannot do what the pc does and ditch resources, we're loading! // can safely do the state update only, knowing that the state change won't affect 360 resources ((MaterialSystem_Config_t *)g_pMaterialSystemConfig)->SetFlag( MATSYS_VIDCFG_FLAGS_ENABLE_HDR, bEnable ); return; } ShutdownWellKnownRenderTargets(); InitWellKnownRenderTargets(); /// XXX(JohnS): This works around part of the terribleness the comments below discuss by performing /// UpdateMaterialSystemConfig with the device offline, removing its need to do multiple re-uploads of /// things. I am not positive my changes to allow that won't introduce terrible regressions or awaken /// ancient bugs, hence the kill switch. bool bUpdateOffline = mod_offline_hdr_switch.GetBool(); #ifndef DEDICATED extern void V_RenderVGuiOnly(); #endif if ( bUpdateOffline ) { #ifndef DEDICATED V_RenderVGuiOnly(); #endif materials->ReleaseResources(); } // Grah. This is terrible. changin mat_hdr_enabled at the commandline // will by definition break because the release/restore methods don't call // ShutdownWellKnownRenderTargets/InitWellKnownRenderTargets. // Also, this forces two alt-tabs, one for InitWellKnownRenderTargets, one // for UpdateMaterialSystemConfig. UpdateMaterialSystemConfig(); // Worse, since we need to init+shutdown render targets here, we can't // rely on UpdateMaterialSystemConfig to release + reacquire resources // because it could be called at any time. We have to precisely control // when hdr is changed since this is the only time the code can handle it. if ( !bUpdateOffline ) { materials->ReleaseResources(); } materials->ReacquireResources(); #ifndef DEDICATED if ( bUpdateOffline ) { V_RenderVGuiOnly(); } #endif } //----------------------------------------------------------------------------- // Determine feature flags //----------------------------------------------------------------------------- void Map_CheckFeatureFlags() { g_bLoadedMapHasBakedPropLighting = false; g_bBakedPropLightingNoSeparateHDR = false; if ( CMapLoadHelper::LumpSize( LUMP_MAP_FLAGS ) > 0 ) { CMapLoadHelper lh( LUMP_MAP_FLAGS ); dflagslump_t flags_lump; flags_lump = *( (dflagslump_t *)( lh.LumpBase() ) ); // check if loaded map has baked static prop lighting g_bLoadedMapHasBakedPropLighting = ( flags_lump.m_LevelFlags & LVLFLAGS_BAKED_STATIC_PROP_LIGHTING_NONHDR ) != 0 || ( flags_lump.m_LevelFlags & LVLFLAGS_BAKED_STATIC_PROP_LIGHTING_HDR ) != 0; g_bBakedPropLightingNoSeparateHDR = ( flags_lump.m_LevelFlags & LVLFLAGS_BAKED_STATIC_PROP_LIGHTING_HDR ) == 0; } } //----------------------------------------------------------------------------- // Parse the map header for HDR ability. Returns the presence of HDR data only, // not the HDR enable state. //----------------------------------------------------------------------------- bool Map_CheckForHDR( model_t *pModel, const char *pLoadName ) { // parse the map header only CMapLoadHelper::Init( pModel, pLoadName ); bool bHasHDR = false; if ( IsX360() ) { // If this is true, the 360 MUST use HDR, because the LDR data gets stripped out. bHasHDR = CMapLoadHelper::LumpSize( LUMP_LIGHTING_HDR ) > 0; } else { // might want to also consider the game lumps GAMELUMP_DETAIL_PROP_LIGHTING_HDR bHasHDR = CMapLoadHelper::LumpSize( LUMP_LIGHTING_HDR ) > 0 && CMapLoadHelper::LumpSize( LUMP_WORLDLIGHTS_HDR ) > 0; // Mod_GameLumpSize( GAMELUMP_DETAIL_PROP_LIGHTING_HDR ) > 0 // fixme } if ( s_MapHeader.version >= 20 && CMapLoadHelper::LumpSize( LUMP_LEAF_AMBIENT_LIGHTING_HDR ) == 0 ) { // This lump only exists in version 20 and greater, so don't bother checking for it on earlier versions. bHasHDR = false; } bool bEnableHDR = ( IsX360() && bHasHDR ) || ( bHasHDR && ( mat_hdr_level.GetInt() >= 2 ) && ( g_pMaterialSystemHardwareConfig->GetDXSupportLevel() >= 90 ) ); EnableHDR( bEnableHDR ); // this data really should have been in the header, but it isn't // establish the features now, before the real bsp load commences Map_CheckFeatureFlags(); CMapLoadHelper::Shutdown(); return bHasHDR; } //----------------------------------------------------------------------------- // Allocates, frees lighting data //----------------------------------------------------------------------------- static void AllocateLightingData( worldbrushdata_t *pBrushData, int nSize ) { g_bHunkAllocLightmaps = ( !r_unloadlightmaps.GetBool() && r_hunkalloclightmaps.GetBool() ); if ( g_bHunkAllocLightmaps ) { pBrushData->lightdata = (ColorRGBExp32 *)Hunk_Alloc( nSize, false ); } else { // Specifically *not* adding it to the hunk. // If this malloc changes, also change the free in CacheAndUnloadLightmapData() pBrushData->lightdata = (ColorRGBExp32 *)malloc( nSize ); } pBrushData->unloadedlightmaps = false; } static void DeallocateLightingData( worldbrushdata_t *pBrushData ) { if ( pBrushData && pBrushData->lightdata ) { if ( !g_bHunkAllocLightmaps ) { free( pBrushData->lightdata ); } pBrushData->lightdata = NULL; } } static int ComputeLightmapSize( dface_t *pFace, mtexinfo_t *pTexInfo ) { bool bNeedsBumpmap = false; if( pTexInfo[pFace->texinfo].flags & SURF_BUMPLIGHT ) { bNeedsBumpmap = true; } int lightstyles; for (lightstyles=0; lightstyles < MAXLIGHTMAPS; lightstyles++ ) { if ( pFace->styles[lightstyles] == 255 ) break; } int nLuxels = (pFace->m_LightmapTextureSizeInLuxels[0]+1) * (pFace->m_LightmapTextureSizeInLuxels[1]+1); if( bNeedsBumpmap ) { return nLuxels * 4 * lightstyles * ( NUM_BUMP_VECTS + 1 ); } return nLuxels * 4 * lightstyles; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadLighting( CMapLoadHelper &lh ) { if ( !lh.LumpSize() ) { lh.GetMap()->lightdata = NULL; return; } Assert( lh.LumpSize() % sizeof( ColorRGBExp32 ) == 0 ); Assert ( lh.LumpVersion() != 0 ); AllocateLightingData( lh.GetMap(), lh.LumpSize() ); memcpy( lh.GetMap()->lightdata, lh.LumpBase(), lh.LumpSize()); if ( IsX360() ) { // Free the lighting lump, to increase the amount of memory free during the rest of loading CMapLoadHelper::FreeLightingLump(); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadWorldlights( CMapLoadHelper &lh, bool bIsHDR ) { lh.GetMap()->shadowzbuffers = NULL; if (!lh.LumpSize()) { lh.GetMap()->numworldlights = 0; lh.GetMap()->worldlights = NULL; return; } lh.GetMap()->numworldlights = lh.LumpSize() / sizeof( dworldlight_t ); lh.GetMap()->worldlights = (dworldlight_t *)Hunk_AllocName( lh.LumpSize(), va( "%s [%s]", lh.GetLoadName(), "worldlights" ) ); memcpy (lh.GetMap()->worldlights, lh.LumpBase(), lh.LumpSize()); #if !defined( SWDS ) if ( r_lightcache_zbuffercache.GetInt() ) { size_t zbufSize = lh.GetMap()->numworldlights * sizeof( lightzbuffer_t ); lh.GetMap()->shadowzbuffers = ( lightzbuffer_t *) Hunk_AllocName( zbufSize, va( "%s [%s]", lh.GetLoadName(), "shadowzbuffers" ) ); memset( lh.GetMap()->shadowzbuffers, 0, zbufSize ); // mark empty } #endif // Fixup for backward compatability for ( int i = 0; i < lh.GetMap()->numworldlights; i++ ) { if( lh.GetMap()->worldlights[i].type == emit_spotlight) { if ((lh.GetMap()->worldlights[i].constant_attn == 0.0) && (lh.GetMap()->worldlights[i].linear_attn == 0.0) && (lh.GetMap()->worldlights[i].quadratic_attn == 0.0)) { lh.GetMap()->worldlights[i].quadratic_attn = 1.0; } if (lh.GetMap()->worldlights[i].exponent == 0.0) lh.GetMap()->worldlights[i].exponent = 1.0; } else if( lh.GetMap()->worldlights[i].type == emit_point) { // To match earlier lighting, use quadratic... if ((lh.GetMap()->worldlights[i].constant_attn == 0.0) && (lh.GetMap()->worldlights[i].linear_attn == 0.0) && (lh.GetMap()->worldlights[i].quadratic_attn == 0.0)) { lh.GetMap()->worldlights[i].quadratic_attn = 1.0; } } // I replaced the cuttoff_dot field (which took a value from 0 to 1) // with a max light radius. Radius of less than 1 will never happen, // so I can get away with this. When I set radius to 0, it'll // run the old code which computed a radius if (lh.GetMap()->worldlights[i].radius < 1) { lh.GetMap()->worldlights[i].radius = ComputeLightRadius( &lh.GetMap()->worldlights[i], bIsHDR ); } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadVertices( void ) { dvertex_t *in; mvertex_t *out; int i, count; CMapLoadHelper lh( LUMP_VERTEXES ); in = (dvertex_t *)lh.LumpBase(); if ( lh.LumpSize() % sizeof(*in) ) { Host_Error( "Mod_LoadVertices: funny lump size in %s", lh.GetMapName() ); } count = lh.LumpSize() / sizeof(*in); out = (mvertex_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "vertexes" ) ); lh.GetMap()->vertexes = out; lh.GetMap()->numvertexes = count; for ( i=0 ; iposition[0] = in->point[0]; out->position[1] = in->point[1]; out->position[2] = in->point[2]; } } //----------------------------------------------------------------------------- // Purpose: // Input : mins - // maxs - // Output : float //----------------------------------------------------------------------------- static float RadiusFromBounds (Vector& mins, Vector& maxs) { int i; Vector corner; for (i=0 ; i<3 ; i++) { corner[i] = fabs(mins[i]) > fabs(maxs[i]) ? fabs(mins[i]) : fabs(maxs[i]); } return VectorLength( corner ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadSubmodels( CUtlVector &submodelList ) { dmodel_t *in; int i, j, count; CMapLoadHelper lh( LUMP_MODELS ); in = (dmodel_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error("Mod_LoadSubmodels: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); submodelList.SetCount( count ); lh.GetMap()->numsubmodels = count; for ( i=0 ; imins[j] - 1; submodelList[i].maxs[j] = in->maxs[j] + 1; submodelList[i].origin[j] = in->origin[j]; } submodelList[i].radius = RadiusFromBounds (submodelList[i].mins, submodelList[i].maxs); submodelList[i].headnode = in->headnode; submodelList[i].firstface = in->firstface; submodelList[i].numfaces = in->numfaces; } } //----------------------------------------------------------------------------- // Purpose: // Output : medge_t *Mod_LoadEdges //----------------------------------------------------------------------------- medge_t *Mod_LoadEdges ( void ) { dedge_t *in; medge_t *out; int i, count; CMapLoadHelper lh( LUMP_EDGES ); in = (dedge_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadEdges: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); medge_t *pedges = new medge_t[count]; out = pedges; for ( i=0 ; iv[0] = in->v[0]; out->v[1] = in->v[1]; } // delete this in the loader return pedges; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadOcclusion( void ) { CMapLoadHelper lh( LUMP_OCCLUSION ); worldbrushdata_t *b = lh.GetMap(); b->numoccluders = 0; b->occluders = NULL; b->numoccluderpolys = 0; b->occluderpolys = NULL; b->numoccludervertindices = 0; b->occludervertindices = NULL; if ( !lh.LumpSize() ) { return; } CUtlBuffer buf( lh.LumpBase(), lh.LumpSize(), CUtlBuffer::READ_ONLY ); switch( lh.LumpVersion() ) { case LUMP_OCCLUSION_VERSION: { b->numoccluders = buf.GetInt(); if (b->numoccluders) { int nSize = b->numoccluders * sizeof(doccluderdata_t); b->occluders = (doccluderdata_t*)Hunk_AllocName( nSize, "occluder data" ); buf.Get( b->occluders, nSize ); } b->numoccluderpolys = buf.GetInt(); if (b->numoccluderpolys) { int nSize = b->numoccluderpolys * sizeof(doccluderpolydata_t); b->occluderpolys = (doccluderpolydata_t*)Hunk_AllocName( nSize, "occluder poly data" ); buf.Get( b->occluderpolys, nSize ); } b->numoccludervertindices = buf.GetInt(); if (b->numoccludervertindices) { int nSize = b->numoccludervertindices * sizeof(int); b->occludervertindices = (int*)Hunk_AllocName( nSize, "occluder vertices" ); buf.Get( b->occludervertindices, nSize ); } } break; case 1: { b->numoccluders = buf.GetInt(); if (b->numoccluders) { int nSize = b->numoccluders * sizeof(doccluderdata_t); b->occluders = (doccluderdata_t*)Hunk_AllocName( nSize, "occluder data" ); doccluderdataV1_t temp; for ( int i = 0; i < b->numoccluders; ++i ) { buf.Get( &temp, sizeof(doccluderdataV1_t) ); memcpy( &b->occluders[i], &temp, sizeof(doccluderdataV1_t) ); b->occluders[i].area = 1; } } b->numoccluderpolys = buf.GetInt(); if (b->numoccluderpolys) { int nSize = b->numoccluderpolys * sizeof(doccluderpolydata_t); b->occluderpolys = (doccluderpolydata_t*)Hunk_AllocName( nSize, "occluder poly data" ); buf.Get( b->occluderpolys, nSize ); } b->numoccludervertindices = buf.GetInt(); if (b->numoccludervertindices) { int nSize = b->numoccludervertindices * sizeof(int); b->occludervertindices = (int*)Hunk_AllocName( nSize, "occluder vertices" ); buf.Get( b->occludervertindices, nSize ); } } break; case 0: break; default: Host_Error("Invalid occlusion lump version!\n"); break; } } // UNDONE: Really, it's stored 2 times because the texture system keeps a // copy of the name too. I guess we'll get rid of this when we have a material // system that works without a graphics context. At that point, everyone can // reference the name in the material, or just the material itself. //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadTexdata( void ) { // Don't bother loading these again; they're already stored in the collision model // which is guaranteed to be loaded at this point s_pMap->numtexdata = GetCollisionBSPData()->numtextures; s_pMap->texdata = GetCollisionBSPData()->map_surfaces.Base(); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadTexinfo( void ) { texinfo_t *in; mtexinfo_t *out; int i, j, count; // UNDONE: Fix this CMapLoadHelper lh( LUMP_TEXINFO ); in = (texinfo_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadTexinfo: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mtexinfo_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "texinfo" ) ); s_pMap->texinfo = out; s_pMap->numtexinfo = count; bool loadtextures = mat_loadtextures.GetBool(); for ( i=0 ; itextureVecsTexelsPerWorldUnits[j][k] = in->textureVecsTexelsPerWorldUnits[j][k]; out->lightmapVecsLuxelsPerWorldUnits[j][k] = in->lightmapVecsLuxelsPerWorldUnits[j][k] ; } } // assume that the scale is the same on both s and t. out->luxelsPerWorldUnit = VectorLength( out->lightmapVecsLuxelsPerWorldUnits[0].AsVector3D() ); out->worldUnitsPerLuxel = 1.0f / out->luxelsPerWorldUnit; out->flags = in->flags; out->texinfoFlags = 0; if ( loadtextures ) { if ( in->texdata >= 0 ) { out->material = GL_LoadMaterial( lh.GetMap()->texdata[ in->texdata ].name, TEXTURE_GROUP_WORLD ); } else { DevMsg( "Mod_LoadTexinfo: texdata < 0 (index==%i/%i)\n", i, count ); out->material = NULL; } if ( !out->material ) { out->material = g_materialEmpty; g_materialEmpty->IncrementReferenceCount(); } } else { out->material = g_materialEmpty; g_materialEmpty->IncrementReferenceCount(); } } } // code to scan the lightmaps for empty lightstyles static void LinearToGamma( unsigned char *pDstRGB, const float *pSrcRGB ) { pDstRGB[0] = LinearToScreenGamma( pSrcRGB[0] ); pDstRGB[1] = LinearToScreenGamma( pSrcRGB[1] ); pDstRGB[2] = LinearToScreenGamma( pSrcRGB[2] ); } static void CheckSurfaceLighting( SurfaceHandle_t surfID, worldbrushdata_t *pBrushData ) { #if !defined( SWDS ) host_state.worldbrush = pBrushData; msurfacelighting_t *pLighting = SurfaceLighting( surfID, pBrushData ); if( !pLighting->m_pSamples ) return; int smax = ( pLighting->m_LightmapExtents[0] ) + 1; int tmax = ( pLighting->m_LightmapExtents[1] ) + 1; int offset = smax * tmax; if ( SurfHasBumpedLightmaps( surfID ) ) { offset *= ( NUM_BUMP_VECTS + 1 ); } // how many lightmaps does this surface have? int maxLightmapIndex = 0; for (int maps = 1 ; maps < MAXLIGHTMAPS && pLighting->m_nStyles[maps] != 255 ; ++maps) { maxLightmapIndex = maps; } if ( maxLightmapIndex < 1 ) return; // iterate and test each lightmap for ( int maps = maxLightmapIndex; maps != 0; maps-- ) { ColorRGBExp32 *pLightmap = pLighting->m_pSamples + (maps * offset); float maxLen = -1; Vector maxLight; maxLight.Init(); for ( int i = 0; i < offset; i++ ) { Vector c; ColorRGBExp32ToVector( pLightmap[i], c ); if ( c.Length() > maxLen ) { maxLight = c; maxLen = c.Length(); } } unsigned char color[4]; LinearToGamma( color, maxLight.Base() ); const int minLightVal = 1; if ( color[0] <= minLightVal && color[1] <= minLightVal && color[2] <= minLightVal ) { // found a lightmap that is too dark, remove it and shift over the subsequent maps/styles for ( int i = maps; i < maxLightmapIndex; i++ ) { ColorRGBExp32 *pLightmapOverwrite = pLighting->m_pSamples + (i * offset); memcpy( pLightmapOverwrite, pLightmapOverwrite+offset, offset * sizeof(*pLightmapOverwrite) ); pLighting->m_nStyles[i] = pLighting->m_nStyles[i+1]; } // mark end lightstyle as removed, decrement max index pLighting->m_nStyles[maxLightmapIndex] = 255; maxLightmapIndex--; } } // we removed all of the lightstyle maps so clear the flag if ( maxLightmapIndex == 0 ) { surfID->flags &= ~SURFDRAW_HASLIGHTSYTLES; } #endif } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *s - // Output : void CalcSurfaceExtents //----------------------------------------------------------------------------- static void CalcSurfaceExtents ( CMapLoadHelper& lh, SurfaceHandle_t surfID ) { float textureMins[2], textureMaxs[2], val; int i,j, e; mvertex_t *v; mtexinfo_t *tex; int bmins[2], bmaxs[2]; textureMins[0] = textureMins[1] = 999999; textureMaxs[0] = textureMaxs[1] = -99999; worldbrushdata_t *pBrushData = lh.GetMap(); tex = MSurf_TexInfo( surfID, pBrushData ); for (i=0 ; ivertindices[MSurf_FirstVertIndex( surfID )+i]; v = &pBrushData->vertexes[e]; for (j=0 ; j<2 ; j++) { val = v->position[0] * tex->textureVecsTexelsPerWorldUnits[j][0] + v->position[1] * tex->textureVecsTexelsPerWorldUnits[j][1] + v->position[2] * tex->textureVecsTexelsPerWorldUnits[j][2] + tex->textureVecsTexelsPerWorldUnits[j][3]; if (val < textureMins[j]) textureMins[j] = val; if (val > textureMaxs[j]) textureMaxs[j] = val; } } for (i=0 ; i<2 ; i++) { if( MSurf_LightmapExtents( surfID, pBrushData )[i] == 0 && !MSurf_Samples( surfID, pBrushData ) ) { MSurf_Flags( surfID ) |= SURFDRAW_NOLIGHT; } bmins[i] = Float2Int( textureMins[i] ); bmaxs[i] = Ceil2Int( textureMaxs[i] ); MSurf_TextureMins( surfID, pBrushData )[i] = bmins[i]; MSurf_TextureExtents( surfID, pBrushData )[i] = ( bmaxs[i] - bmins[i] ); if ( !(tex->flags & SURF_NOLIGHT) && MSurf_LightmapExtents( surfID, pBrushData )[i] > MSurf_MaxLightmapSizeWithBorder( surfID ) ) { Sys_Error ("Bad surface extents on texture %s", tex->material->GetName() ); } } CheckSurfaceLighting( surfID, pBrushData ); } //----------------------------------------------------------------------------- // Input : *pModel - // *pLump - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadVertNormals( void ) { CMapLoadHelper lh( LUMP_VERTNORMALS ); // get a pointer to the vertex normal data. Vector *pVertNormals = ( Vector * )lh.LumpBase(); // // verify vertnormals data size // if( lh.LumpSize() % sizeof( *pVertNormals ) ) Host_Error( "Mod_LoadVertNormals: funny lump size in %s!\n", lh.GetMapName() ); int count = lh.LumpSize() / sizeof(*pVertNormals); Vector *out = (Vector *)Hunk_AllocName( lh.LumpSize(), va( "%s [%s]", lh.GetLoadName(), "vertnormals" ) ); memcpy( out, pVertNormals, lh.LumpSize() ); lh.GetMap()->vertnormals = out; lh.GetMap()->numvertnormals = count; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadVertNormalIndices( void ) { CMapLoadHelper lh( LUMP_VERTNORMALINDICES ); // get a pointer to the vertex normal data. unsigned short *pIndices = ( unsigned short * )lh.LumpBase(); int count = lh.LumpSize() / sizeof(*pIndices); unsigned short *out = (unsigned short *)Hunk_AllocName( lh.LumpSize(), va( "%s [%s]", lh.GetLoadName(), "vertnormalindices" ) ); memcpy( out, pIndices, lh.LumpSize() ); lh.GetMap()->vertnormalindices = out; lh.GetMap()->numvertnormalindices = count; // OPTIMIZE: Water surfaces don't need vertex normals? int normalIndex = 0; for( int i = 0; i < lh.GetMap()->numsurfaces; i++ ) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( i, lh.GetMap() ); MSurf_FirstVertNormal( surfID, lh.GetMap() ) = normalIndex; normalIndex += MSurf_VertCount( surfID ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadPrimitives( void ) { dprimitive_t *in; mprimitive_t *out; int i, count; CMapLoadHelper lh( LUMP_PRIMITIVES ); in = (dprimitive_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadPrimitives: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mprimitive_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "primitives" ) ); memset( out, 0, count * sizeof( mprimitive_t ) ); lh.GetMap()->primitives = out; lh.GetMap()->numprimitives = count; for ( i=0 ; ifirstIndex = in->firstIndex; out->firstVert = in->firstVert; out->indexCount = in->indexCount; out->type = in->type; out->vertCount = in->vertCount; } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadPrimVerts( void ) { dprimvert_t *in; mprimvert_t *out; int i, count; CMapLoadHelper lh( LUMP_PRIMVERTS ); in = (dprimvert_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadPrimVerts: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mprimvert_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "primverts" ) ); memset( out, 0, count * sizeof( mprimvert_t ) ); lh.GetMap()->primverts = out; lh.GetMap()->numprimverts = count; for ( i=0 ; ipos = in->pos; } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadPrimIndices( void ) { unsigned short *in; unsigned short *out; int count; CMapLoadHelper lh( LUMP_PRIMINDICES ); in = (unsigned short *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadPrimIndices: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (unsigned short *)Hunk_AllocName( count*sizeof(*out), va("%s [%s]", lh.GetLoadName(), "primindices" ) ); memset( out, 0, count * sizeof( unsigned short ) ); lh.GetMap()->primindices = out; lh.GetMap()->numprimindices = count; memcpy( out, in, count * sizeof( unsigned short ) ); } // This allocates memory for a lump and copies the lump data in. void Mod_LoadLump( model_t *loadmodel, int iLump, char *loadname, int elementSize, void **ppData, int *nElements ) { CMapLoadHelper lh( iLump ); if ( lh.LumpSize() % elementSize ) { Host_Error( "Mod_LoadLump: funny lump size in %s", loadmodel->strName.String() ); } // How many elements? *nElements = lh.LumpSize() / elementSize; // Make room for the data and copy the data in. *ppData = Hunk_AllocName( lh.LumpSize(), loadname ); memcpy( *ppData, lh.LumpBase(), lh.LumpSize() ); } //----------------------------------------------------------------------------- // Sets up the msurfacelighting_t structure //----------------------------------------------------------------------------- bool Mod_LoadSurfaceLightingV1( msurfacelighting_t *pLighting, dface_t *in, ColorRGBExp32 *pBaseLightData ) { // Get lightmap extents from the file. pLighting->m_LightmapExtents[0] = in->m_LightmapTextureSizeInLuxels[0]; pLighting->m_LightmapExtents[1] = in->m_LightmapTextureSizeInLuxels[1]; pLighting->m_LightmapMins[0] = in->m_LightmapTextureMinsInLuxels[0]; pLighting->m_LightmapMins[1] = in->m_LightmapTextureMinsInLuxels[1]; int i = in->lightofs; if ( (i == -1) || (!pBaseLightData) ) { pLighting->m_pSamples = NULL; // Can't have *any* lightstyles if we have no samples.... for ( i=0; im_nStyles[i] = 255; } } else { pLighting->m_pSamples = (ColorRGBExp32 *)( ((byte *)pBaseLightData) + i ); for (i=0 ; im_nStyles[i] = in->styles[i]; } } return ((pLighting->m_nStyles[0] != 0) && (pLighting->m_nStyles[0] != 255)) || (pLighting->m_nStyles[1] != 255); } void *Hunk_AllocNameAlignedClear_( int size, int alignment, const char *pHunkName ) { Assert(IsPowerOfTwo(alignment)); void *pMem = Hunk_AllocName( alignment + size, pHunkName ); memset( pMem, 0, size + alignment ); pMem = (void *)( ( ( ( unsigned long )pMem ) + (alignment-1) ) & ~(alignment-1) ); return pMem; } // Allocates a block of T from the hunk. Aligns as specified and clears the memory template< typename T > T *Hunk_AllocNameAlignedClear( int count, int alignment, const char *pHunkName ) { return (T *)Hunk_AllocNameAlignedClear_( alignment + count * sizeof(T), alignment, pHunkName ); } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadFaces( void ) { dface_t *in; int count, surfnum; int planenum; int ti, di; int face_lump_to_load = LUMP_FACES; if ( g_pMaterialSystemHardwareConfig->GetHDRType() != HDR_TYPE_NONE && CMapLoadHelper::LumpSize( LUMP_FACES_HDR ) > 0 ) { face_lump_to_load = LUMP_FACES_HDR; } CMapLoadHelper lh( face_lump_to_load ); in = (dface_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadFaces: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); // align these allocations // If you trip one of these, you need to rethink the alignment of the struct Assert( sizeof(msurface1_t) == 16 ); Assert( sizeof(msurface2_t) == 32 ); Assert( sizeof(msurfacelighting_t) == 32 ); msurface1_t *out1 = Hunk_AllocNameAlignedClear< msurface1_t >( count, 16, va( "%s [%s]", lh.GetLoadName(), "surface1" ) ); msurface2_t *out2 = Hunk_AllocNameAlignedClear< msurface2_t >( count, 32, va( "%s [%s]", lh.GetLoadName(), "surface2" ) ); msurfacelighting_t *pLighting = Hunk_AllocNameAlignedClear< msurfacelighting_t >( count, 32, va( "%s [%s]", lh.GetLoadName(), "surfacelighting" ) ); lh.GetMap()->surfaces1 = out1; lh.GetMap()->surfaces2 = out2; lh.GetMap()->surfacelighting = pLighting; lh.GetMap()->surfacenormals = Hunk_AllocNameAlignedClear< msurfacenormal_t >( count, 2, va( "%s [%s]", lh.GetLoadName(), "surfacenormal" ) ); lh.GetMap()->numsurfaces = count; worldbrushdata_t *pBrushData = lh.GetMap(); for ( surfnum=0 ; surfnumfirstedge; int vertCount = in->numedges; MSurf_Flags( surfID ) = 0; Assert( vertCount <= 255 ); MSurf_SetVertCount( surfID, vertCount ); planenum = in->planenum; if ( in->onNode ) { MSurf_Flags( surfID ) |= SURFDRAW_NODE; } if ( in->side ) { MSurf_Flags( surfID ) |= SURFDRAW_PLANEBACK; } out2->plane = lh.GetMap()->planes + planenum; ti = in->texinfo; if (ti < 0 || ti >= lh.GetMap()->numtexinfo) { Host_Error( "Mod_LoadFaces: bad texinfo number" ); } surfID->texinfo = ti; surfID->m_bDynamicShadowsEnabled = in->AreDynamicShadowsEnabled(); mtexinfo_t *pTex = lh.GetMap()->texinfo + ti; // big hack! if ( !pTex->material ) { pTex->material = g_materialEmpty; g_materialEmpty->IncrementReferenceCount(); } // lighting info if ( Mod_LoadSurfaceLightingV1( pLighting, in, lh.GetMap()->lightdata ) ) { MSurf_Flags( surfID ) |= SURFDRAW_HASLIGHTSYTLES; } // set the drawing flags flag if ( pTex->flags & SURF_NOLIGHT ) { MSurf_Flags( surfID ) |= SURFDRAW_NOLIGHT; } if ( pTex->flags & SURF_NOSHADOWS ) { MSurf_Flags( surfID ) |= SURFDRAW_NOSHADOWS; } if ( pTex->flags & SURF_WARP ) { MSurf_Flags( surfID ) |= SURFDRAW_WATERSURFACE; } if ( pTex->flags & SURF_SKY ) { MSurf_Flags( surfID ) |= SURFDRAW_SKY; } di = in->dispinfo; out2->pDispInfo = NULL; if( di != -1 ) { // out->origSurfaceID = in->origFace; MSurf_Flags( surfID ) |= SURFDRAW_HAS_DISP; } else { // non-displacement faces shouldn't come out of VBSP if they have nodraw. Assert( !(pTex->flags & SURF_NODRAW) ); out1->prims.numPrims = in->GetNumPrims(); out1->prims.firstPrimID = in->firstPrimID; if ( in->GetNumPrims() ) { MSurf_Flags( surfID ) |= SURFDRAW_HAS_PRIMS; mprimitive_t *pPrim = &pBrushData->primitives[in->firstPrimID]; if ( pPrim->vertCount > 0 ) { MSurf_Flags( surfID ) |= SURFDRAW_DYNAMIC; } } } // No shadows on the surface to start with out2->m_ShadowDecals = SHADOW_DECAL_HANDLE_INVALID; out2->decals = WORLD_DECAL_HANDLE_INVALID; // No overlays on the surface to start with out2->m_nFirstOverlayFragment = OVERLAY_FRAGMENT_INVALID; CalcSurfaceExtents( lh, surfID ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *node - // *parent - // Output : void Mod_SetParent //----------------------------------------------------------------------------- void Mod_SetParent (mnode_t *node, mnode_t *parent) { node->parent = parent; if (node->contents >= 0) return; Mod_SetParent (node->children[0], node); Mod_SetParent (node->children[1], node); } //----------------------------------------------------------------------------- // Mark an entire subtree as being too small to bother with //----------------------------------------------------------------------------- static void MarkSmallNode( mnode_t *node ) { if (node->contents >= 0) return; node->contents = -2; MarkSmallNode (node->children[0]); MarkSmallNode (node->children[1]); } static void CheckSmallVolumeDifferences( mnode_t *pNode, const Vector &parentSize ) { if (pNode->contents >= 0) return; Vector delta; VectorSubtract( parentSize, pNode->m_vecHalfDiagonal, delta ); if ((delta.x < 5) && (delta.y < 5) && (delta.z < 5)) { pNode->contents = -3; CheckSmallVolumeDifferences( pNode->children[0], parentSize ); CheckSmallVolumeDifferences( pNode->children[1], parentSize ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadNodes( void ) { Vector mins( 0, 0, 0 ), maxs( 0, 0, 0 ); int i, j, count, p; dnode_t *in; mnode_t *out; CMapLoadHelper lh( LUMP_NODES ); in = (dnode_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadNodes: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mnode_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "nodes" ) ); lh.GetMap()->nodes = out; lh.GetMap()->numnodes = count; for ( i=0 ; imins[j]; maxs[j] = in->maxs[j]; } VectorAdd( mins, maxs, out->m_vecCenter ); out->m_vecCenter *= 0.5f; VectorSubtract( maxs, out->m_vecCenter, out->m_vecHalfDiagonal ); p = in->planenum; out->plane = lh.GetMap()->planes + p; out->firstsurface = in->firstface; out->numsurfaces = in->numfaces; out->area = in->area; out->contents = -1; // differentiate from leafs for (j=0 ; j<2 ; j++) { p = in->children[j]; if (p >= 0) out->children[j] = lh.GetMap()->nodes + p; else out->children[j] = (mnode_t *)(lh.GetMap()->leafs + (-1 - p)); } } Mod_SetParent (lh.GetMap()->nodes, NULL); // sets nodes and leafs // Check for small-area parents... no culling below them... mnode_t *pNode = lh.GetMap()->nodes; for ( i=0 ; icontents == -1) { if ((pNode->m_vecHalfDiagonal.x <= 50) && (pNode->m_vecHalfDiagonal.y <= 50) && (pNode->m_vecHalfDiagonal.z <= 50)) { // Mark all children as being too small to bother with... MarkSmallNode( pNode->children[0] ); MarkSmallNode( pNode->children[1] ); } else { CheckSmallVolumeDifferences( pNode->children[0], pNode->m_vecHalfDiagonal ); CheckSmallVolumeDifferences( pNode->children[1], pNode->m_vecHalfDiagonal ); } } } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadLeafs_Version_0( CMapLoadHelper &lh ) { Vector mins( 0, 0, 0 ), maxs( 0, 0, 0 ); dleaf_version_0_t *in; mleaf_t *out; int i, j, count, p; in = (dleaf_version_0_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadLeafs: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mleaf_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "leafs" ) ); lh.GetMap()->leafs = out; lh.GetMap()->numleafs = count; // one sample per leaf lh.GetMap()->m_pLeafAmbient = (mleafambientindex_t *)Hunk_AllocName( count * sizeof(*lh.GetMap()->m_pLeafAmbient), "LeafAmbient" ); lh.GetMap()->m_pAmbientSamples = (mleafambientlighting_t *)Hunk_AllocName( count * sizeof(*lh.GetMap()->m_pAmbientSamples), "LeafAmbientSamples" ); mleafambientindex_t *pTable = lh.GetMap()->m_pLeafAmbient; mleafambientlighting_t *pSamples = lh.GetMap()->m_pAmbientSamples; for ( i=0 ; imins[j]; maxs[j] = in->maxs[j]; } VectorAdd( mins, maxs, out->m_vecCenter ); out->m_vecCenter *= 0.5f; VectorSubtract( maxs, out->m_vecCenter, out->m_vecHalfDiagonal ); pTable[i].ambientSampleCount = 1; pTable[i].firstAmbientSample = i; pSamples[i].x = pSamples[i].y = pSamples[i].z = 128; pSamples[i].pad = 0; Q_memcpy( &pSamples[i].cube, &in->m_AmbientLighting, sizeof(pSamples[i].cube) ); p = in->contents; out->contents = p; out->cluster = in->cluster; out->area = in->area; out->flags = in->flags; /* out->firstmarksurface = lh.GetMap()->marksurfaces + in->firstleafface; */ out->firstmarksurface = in->firstleafface; out->nummarksurfaces = in->numleaffaces; out->parent = NULL; out->dispCount = 0; out->leafWaterDataID = in->leafWaterDataID; } } //----------------------------------------------------------------------------- // Purpose: // Input : *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadLeafs_Version_1( CMapLoadHelper &lh, CMapLoadHelper &ambientLightingLump, CMapLoadHelper &ambientLightingTable ) { Vector mins( 0, 0, 0 ), maxs( 0, 0, 0 ); dleaf_t *in; mleaf_t *out; int i, j, count, p; in = (dleaf_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadLeafs: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mleaf_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "leafs" ) ); lh.GetMap()->leafs = out; lh.GetMap()->numleafs = count; if ( ambientLightingLump.LumpVersion() != LUMP_LEAF_AMBIENT_LIGHTING_VERSION || ambientLightingTable.LumpSize() == 0 ) { // convert from previous version CompressedLightCube *inLightCubes = NULL; if ( ambientLightingLump.LumpSize() ) { inLightCubes = ( CompressedLightCube * )ambientLightingLump.LumpBase(); Assert( ambientLightingLump.LumpSize() % sizeof( CompressedLightCube ) == 0 ); Assert( ambientLightingLump.LumpSize() / sizeof( CompressedLightCube ) == lh.LumpSize() / sizeof( dleaf_t ) ); } lh.GetMap()->m_pLeafAmbient = (mleafambientindex_t *)Hunk_AllocName( count * sizeof(*lh.GetMap()->m_pLeafAmbient), "LeafAmbient" ); lh.GetMap()->m_pAmbientSamples = (mleafambientlighting_t *)Hunk_AllocName( count * sizeof(*lh.GetMap()->m_pAmbientSamples), "LeafAmbientSamples" ); mleafambientindex_t *pTable = lh.GetMap()->m_pLeafAmbient; mleafambientlighting_t *pSamples = lh.GetMap()->m_pAmbientSamples; Vector gray(0.5, 0.5, 0.5); ColorRGBExp32 grayColor; VectorToColorRGBExp32( gray, grayColor ); for ( i = 0; i < count; i++ ) { pTable[i].ambientSampleCount = 1; pTable[i].firstAmbientSample = i; pSamples[i].x = pSamples[i].y = pSamples[i].z = 128; pSamples[i].pad = 0; if ( inLightCubes ) { Q_memcpy( &pSamples[i].cube, &inLightCubes[i], sizeof(pSamples[i].cube) ); } else { for ( j = 0; j < 6; j++ ) { pSamples[i].cube.m_Color[j] = grayColor; } } } } else { Assert( ambientLightingLump.LumpSize() % sizeof( dleafambientlighting_t ) == 0 ); Assert( ambientLightingTable.LumpSize() % sizeof( dleafambientindex_t ) == 0 ); Assert((ambientLightingTable.LumpSize() / sizeof(dleafambientindex_t)) == (unsigned)count); // should have one of these per leaf lh.GetMap()->m_pLeafAmbient = (mleafambientindex_t *)Hunk_AllocName( ambientLightingTable.LumpSize(), "LeafAmbient" ); lh.GetMap()->m_pAmbientSamples = (mleafambientlighting_t *)Hunk_AllocName( ambientLightingLump.LumpSize(), "LeafAmbientSamples" ); Q_memcpy( lh.GetMap()->m_pLeafAmbient, ambientLightingTable.LumpBase(), ambientLightingTable.LumpSize() ); Q_memcpy( lh.GetMap()->m_pAmbientSamples, ambientLightingLump.LumpBase(), ambientLightingLump.LumpSize() ); } for ( i=0 ; imins[j]; maxs[j] = in->maxs[j]; } VectorAdd( mins, maxs, out->m_vecCenter ); out->m_vecCenter *= 0.5f; VectorSubtract( maxs, out->m_vecCenter, out->m_vecHalfDiagonal ); p = in->contents; out->contents = p; out->cluster = in->cluster; out->area = in->area; out->flags = in->flags; /* out->firstmarksurface = lh.GetMap()->marksurfaces + in->firstleafface; */ out->firstmarksurface = in->firstleafface; out->nummarksurfaces = in->numleaffaces; out->parent = NULL; out->dispCount = 0; out->leafWaterDataID = in->leafWaterDataID; } } void Mod_LoadLeafs( void ) { CMapLoadHelper lh( LUMP_LEAFS ); switch( lh.LumpVersion() ) { case 0: Mod_LoadLeafs_Version_0( lh ); break; case 1: if( g_pMaterialSystemHardwareConfig->GetHDRType() != HDR_TYPE_NONE && CMapLoadHelper::LumpSize( LUMP_LEAF_AMBIENT_LIGHTING_HDR ) > 0 ) { CMapLoadHelper mlh( LUMP_LEAF_AMBIENT_LIGHTING_HDR ); CMapLoadHelper mlhTable( LUMP_LEAF_AMBIENT_INDEX_HDR ); Mod_LoadLeafs_Version_1( lh, mlh, mlhTable ); } else { CMapLoadHelper mlh( LUMP_LEAF_AMBIENT_LIGHTING ); CMapLoadHelper mlhTable( LUMP_LEAF_AMBIENT_INDEX ); Mod_LoadLeafs_Version_1( lh, mlh, mlhTable ); } break; default: Assert( 0 ); Error( "Unknown LUMP_LEAFS version\n" ); break; } worldbrushdata_t *pMap = lh.GetMap(); cleaf_t *pCLeaf = GetCollisionBSPData()->map_leafs.Base(); for ( int i = 0; i < pMap->numleafs; i++ ) { pMap->leafs[i].dispCount = pCLeaf[i].dispCount; pMap->leafs[i].dispListStart = pCLeaf[i].dispListStart; } // HACKHACK: Copy over the shared global list here. Hunk_Alloc a copy? pMap->m_pDispInfoReferences = GetCollisionBSPData()->map_dispList.Base(); pMap->m_nDispInfoReferences = GetCollisionBSPData()->numdisplist; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadLeafWaterData( void ) { dleafwaterdata_t *in; mleafwaterdata_t *out; int count, i; CMapLoadHelper lh( LUMP_LEAFWATERDATA ); in = (dleafwaterdata_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadLeafs: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mleafwaterdata_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "leafwaterdata" ) ); lh.GetMap()->leafwaterdata = out; lh.GetMap()->numleafwaterdata = count; for ( i=0 ; iminZ = in->minZ; out->surfaceTexInfoID = in->surfaceTexInfoID; out->surfaceZ = in->surfaceZ; out->firstLeafIndex = -1; } if ( count == 1 ) { worldbrushdata_t *brush = lh.GetMap(); for ( i = 0; i < brush->numleafs; i++ ) { if ( brush->leafs[i].leafWaterDataID >= 0 ) { brush->leafwaterdata[0].firstLeafIndex = i; break; } } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadCubemapSamples( void ) { char textureName[512]; char loadName[ MAX_PATH ]; dcubemapsample_t *in; mcubemapsample_t *out; int count, i; CMapLoadHelper lh( LUMP_CUBEMAPS ); V_strcpy_safe( loadName, lh.GetLoadName() ); in = (dcubemapsample_t *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadCubemapSamples: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (mcubemapsample_t *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "cubemapsample" ) ); lh.GetMap()->m_pCubemapSamples = out; lh.GetMap()->m_nCubemapSamples = count; bool bHDR = g_pMaterialSystemHardwareConfig->GetHDRType() != HDR_TYPE_NONE; int nCreateFlags = bHDR ? 0 : TEXTUREFLAGS_SRGB; // We have separate HDR versions of the textures. In order to deal with this, // we have blahenvmap.hdr.vtf and blahenvmap.vtf. char *pHDRExtension = ""; if( bHDR ) { pHDRExtension = ".hdr"; } for ( i=0 ; iorigin.Init( ( float )in->origin[0], ( float )in->origin[1], ( float )in->origin[2] ); out->size = in->size; Q_snprintf( textureName, sizeof( textureName ), "maps/%s/c%d_%d_%d%s", loadName, ( int )in->origin[0], ( int )in->origin[1], ( int )in->origin[2], pHDRExtension ); out->pTexture = materials->FindTexture( textureName, TEXTURE_GROUP_CUBE_MAP, true, nCreateFlags ); if ( IsErrorTexture( out->pTexture ) ) { if ( bHDR ) { Warning( "Couldn't get HDR '%s' -- ", textureName ); // try non hdr version Q_snprintf( textureName, sizeof( textureName ), "maps/%s/c%d_%d_%d", loadName, ( int )in->origin[0], ( int )in->origin[1], ( int )in->origin[2]); Warning( "Trying non HDR '%s'\n", textureName); out->pTexture = materials->FindTexture( textureName, TEXTURE_GROUP_CUBE_MAP, true ); } if ( IsErrorTexture( out->pTexture ) ) { Q_snprintf( textureName, sizeof( textureName ), "maps/%s/cubemapdefault", loadName ); out->pTexture = materials->FindTexture( textureName, TEXTURE_GROUP_CUBE_MAP, true, nCreateFlags ); if ( IsErrorTexture( out->pTexture ) ) { out->pTexture = materials->FindTexture( "engine/defaultcubemap", TEXTURE_GROUP_CUBE_MAP, true, nCreateFlags ); } Warning( "Failed, using default cubemap '%s'\n", out->pTexture->GetName() ); } } out->pTexture->IncrementReferenceCount(); } CMatRenderContextPtr pRenderContext( materials ); if ( count ) { pRenderContext->BindLocalCubemap( lh.GetMap()->m_pCubemapSamples[0].pTexture ); } else { if ( CommandLine()->CheckParm( "-requirecubemaps" ) ) { Sys_Error( "Map \"%s\" does not have cubemaps!", lh.GetMapName() ); } ITexture *pTexture; Q_snprintf( textureName, sizeof( textureName ), "maps/%s/cubemapdefault", loadName ); pTexture = materials->FindTexture( textureName, TEXTURE_GROUP_CUBE_MAP, true, nCreateFlags ); if ( IsErrorTexture( pTexture ) ) { pTexture = materials->FindTexture( "engine/defaultcubemap", TEXTURE_GROUP_CUBE_MAP, true, nCreateFlags ); } pTexture->IncrementReferenceCount(); pRenderContext->BindLocalCubemap( pTexture ); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadLeafMinDistToWater( void ) { CMapLoadHelper lh( LUMP_LEAFMINDISTTOWATER ); unsigned short *pTmp = ( unsigned short * )lh.LumpBase(); int i; bool foundOne = false; for( i = 0; i < ( int )( lh.LumpSize() / sizeof( *pTmp ) ); i++ ) { if( pTmp[i] != 65535 ) // FIXME: make a marcro for this. { foundOne = true; break; } } if( !foundOne || lh.LumpSize() == 0 || !g_pMaterialSystemHardwareConfig || !g_pMaterialSystemHardwareConfig->SupportsVertexAndPixelShaders()) { // We don't bother keeping this if: // 1) there is no water in the map // 2) we don't have this lump in the bsp file (old bsp file) // 3) we aren't going to use it because we are on old hardware. lh.GetMap()->m_LeafMinDistToWater = NULL; } else { int count; unsigned short *in; unsigned short *out; in = (unsigned short *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadLeafMinDistToWater: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); out = (unsigned short *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "leafmindisttowater" ) ); memcpy( out, in, sizeof( out[0] ) * count ); lh.GetMap()->m_LeafMinDistToWater = out; } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Mod_LoadMarksurfaces( void ) { int i, j, count; unsigned short *in; CMapLoadHelper lh( LUMP_LEAFFACES ); in = (unsigned short *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadMarksurfaces: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); SurfaceHandle_t *tempDiskData = new SurfaceHandle_t[count]; worldbrushdata_t *pBrushData = lh.GetMap(); pBrushData->marksurfaces = tempDiskData; pBrushData->nummarksurfaces = count; // read in the mark surfaces, count out how many we'll actually need to store int realCount = 0; for ( i=0 ; i= lh.GetMap()->numsurfaces) Host_Error ("Mod_LoadMarksurfaces: bad surface number"); SurfaceHandle_t surfID = SurfaceHandleFromIndex( j, pBrushData ); tempDiskData[i] = surfID; if ( !SurfaceHasDispInfo( surfID ) && !(MSurf_Flags(surfID) & SURFDRAW_NODRAW) ) { realCount++; } } // now allocate the permanent list, and copy the non-terrain, non-nodraw surfs into it SurfaceHandle_t *surfList = (SurfaceHandle_t *)Hunk_AllocName( realCount*sizeof(SurfaceHandle_t), va( "%s [%s]", lh.GetLoadName(), "surfacehandle" ) ); int outCount = 0; mleaf_t *pLeaf = pBrushData->leafs; for ( i = 0; i < pBrushData->numleafs; i++ ) { int firstMark = outCount; int numMark = 0; bool foundDetail = false; int numMarkNode = 0; for ( j = 0; j < pLeaf[i].nummarksurfaces; j++ ) { // write a new copy of the mark surfaces for this leaf, strip out the nodraw & terrain SurfaceHandle_t surfID = tempDiskData[pLeaf[i].firstmarksurface+j]; if ( !SurfaceHasDispInfo( surfID ) && !(MSurf_Flags(surfID) & SURFDRAW_NODRAW) ) { surfList[outCount++] = surfID; numMark++; Assert(outCount<=realCount); if ( MSurf_Flags(surfID) & SURFDRAW_NODE ) { // this assert assures that all SURFDRAW_NODE surfs appear coherently Assert( !foundDetail ); numMarkNode++; } else { foundDetail = true; } } } // update the leaf count pLeaf[i].nummarksurfaces = numMark; pLeaf[i].firstmarksurface = firstMark; pLeaf[i].nummarknodesurfaces = numMarkNode; } // write out the compacted array pBrushData->marksurfaces = surfList; pBrushData->nummarksurfaces = realCount; // remove the temp copy of the disk data delete[] tempDiskData; //Msg("Must check %d / %d faces\n", checkCount, pModel->brush.numsurfaces ); } //----------------------------------------------------------------------------- // Purpose: // Input : *pedges - // *loadmodel - // *l - // *loadname - //----------------------------------------------------------------------------- void Mod_LoadSurfedges( medge_t *pedges ) { int i, count; int *in; unsigned short *out; CMapLoadHelper lh( LUMP_SURFEDGES ); in = (int *)lh.LumpBase(); if (lh.LumpSize() % sizeof(*in)) Host_Error ("Mod_LoadSurfedges: funny lump size in %s",lh.GetMapName()); count = lh.LumpSize() / sizeof(*in); if (count < 1 || count >= MAX_MAP_SURFEDGES) Host_Error ("Mod_LoadSurfedges: bad surfedges count in %s: %i", lh.GetMapName(), count); out = (unsigned short *)Hunk_AllocName( count*sizeof(*out), va( "%s [%s]", lh.GetLoadName(), "surfedges" ) ); lh.GetMap()->vertindices = out; lh.GetMap()->numvertindices = count; for ( i=0 ; iplanes = GetCollisionBSPData()->map_planes.Base(); s_pMap->numplanes = GetCollisionBSPData()->numplanes; } //----------------------------------------------------------------------------- // Returns game lump version //----------------------------------------------------------------------------- int Mod_GameLumpVersion( int lumpId ) { for ( int i = g_GameLumpDict.Size(); --i >= 0; ) { if ( g_GameLumpDict[i].id == lumpId ) { return g_GameLumpDict[i].version; } } return 0; } //----------------------------------------------------------------------------- // Returns game lump size //----------------------------------------------------------------------------- int Mod_GameLumpSize( int lumpId ) { for ( int i = g_GameLumpDict.Size(); --i >= 0; ) { if ( g_GameLumpDict[i].id == lumpId ) { return g_GameLumpDict[i].uncompressedSize; } } return 0; } //----------------------------------------------------------------------------- // Loads game lumps //----------------------------------------------------------------------------- bool Mod_LoadGameLump( int lumpId, void *pOutBuffer, int size ) { int i; for ( i = g_GameLumpDict.Size(); --i >= 0; ) { if ( g_GameLumpDict[i].id == lumpId ) { break; } } if ( i < 0 ) { // unknown return false; } byte *pData; bool bIsCompressed = ( g_GameLumpDict[i].flags & GAMELUMPFLAG_COMPRESSED ); int dataLength; int outSize; if ( bIsCompressed ) { // lump data length is always original uncompressed size // compressed lump data length is determined from next dictionary entry offset dataLength = g_GameLumpDict[i].compressedSize; outSize = g_GameLumpDict[i].uncompressedSize; } else { dataLength = outSize = g_GameLumpDict[i].uncompressedSize; } if ( size < 0 || size < outSize ) { // caller must supply a buffer that is large enough to hold the data return false; } if ( s_MapBuffer.Base() ) { // data is in memory Assert( CMapLoadHelper::GetRefCount() ); if ( g_GameLumpDict[i].offset + dataLength > (unsigned int)s_MapBuffer.TellMaxPut() ) { // out of range Assert( 0 ); return false; } pData = (unsigned char *)s_MapBuffer.Base() + g_GameLumpDict[i].offset; if ( !bIsCompressed ) { V_memcpy( pOutBuffer, pData, outSize ); return true; } } else { // Load file into buffer FileHandle_t fileHandle = g_pFileSystem->Open( g_GameLumpFilename, "rb" ); if ( fileHandle == FILESYSTEM_INVALID_HANDLE ) { return false; } g_pFileSystem->Seek( fileHandle, g_GameLumpDict[i].offset, FILESYSTEM_SEEK_HEAD ); if ( !bIsCompressed ) { // read directly into user's buffer bool bOK = ( g_pFileSystem->Read( pOutBuffer, outSize, fileHandle ) > 0 ); g_pFileSystem->Close( fileHandle ); return bOK; } else { // data is compressed, read into temporary pData = (byte *)malloc( dataLength ); bool bOK = ( g_pFileSystem->Read( pData, dataLength, fileHandle ) > 0 ); g_pFileSystem->Close( fileHandle ); if ( !bOK ) { free( pData ); return false; } } } // We'll fall though to here through here if we're compressed bool bResult = false; if ( !CLZMA::IsCompressed( pData ) || CLZMA::GetActualSize( (unsigned char *)pData ) != g_GameLumpDict[i].uncompressedSize ) { Warning( "Failed loading game lump %i: lump claims to be compressed but metadata does not match\n", lumpId ); } else { // uncompress directly into caller's buffer int outputLength = CLZMA::Uncompress( pData, (unsigned char *)pOutBuffer ); bResult = ( outputLength > 0 && (unsigned int)outputLength == g_GameLumpDict[i].uncompressedSize ); } if ( !s_MapBuffer.Base() ) { // done with temporary buffer free( pData ); } return bResult; } //----------------------------------------------------------------------------- // Loads game lump dictionary //----------------------------------------------------------------------------- void Mod_LoadGameLumpDict( void ) { CMapLoadHelper lh( LUMP_GAME_LUMP ); // FIXME: This is brittle. If we ever try to load two game lumps // (say, in multiple BSP files), the dictionary info I store here will get whacked g_GameLumpDict.RemoveAll(); V_strcpy_safe( g_GameLumpFilename, lh.GetMapName() ); unsigned int lhSize = (unsigned int)Max( lh.LumpSize(), 0 ); if ( lhSize >= sizeof( dgamelumpheader_t ) ) { dgamelumpheader_t* pGameLumpHeader = (dgamelumpheader_t*)lh.LumpBase(); // Ensure (lumpsize * numlumps + headersize) doesn't overflow const int nMaxGameLumps = ( INT_MAX - sizeof( dgamelumpheader_t ) ) / sizeof( dgamelump_t ); if ( pGameLumpHeader->lumpCount < 0 || pGameLumpHeader->lumpCount > nMaxGameLumps || sizeof( dgamelumpheader_t ) + sizeof( dgamelump_t ) * pGameLumpHeader->lumpCount > lhSize ) { Warning( "Bogus gamelump header in map, rejecting\n" ); } else { // Load in lumps dgamelump_t* pGameLump = (dgamelump_t*)(pGameLumpHeader + 1); for (int i = 0; i < pGameLumpHeader->lumpCount; ++i ) { if ( pGameLump[i].fileofs >= 0 && (unsigned int)pGameLump[i].fileofs >= (unsigned int)lh.LumpOffset() && (unsigned int)pGameLump[i].fileofs < (unsigned int)lh.LumpOffset() + lhSize && pGameLump[i].filelen > 0 ) { unsigned int compressedSize = 0; if ( i + 1 < pGameLumpHeader->lumpCount && pGameLump[i+1].fileofs > pGameLump[i].fileofs && pGameLump[i+1].fileofs >= 0 && (unsigned int)pGameLump[i+1].fileofs <= (unsigned int)lh.LumpOffset() + lhSize ) { compressedSize = (unsigned int)pGameLump[i+1].fileofs - (unsigned int)pGameLump[i].fileofs; } else { compressedSize = (unsigned int)lh.LumpOffset() + lhSize - (unsigned int)pGameLump[i].fileofs; } g_GameLumpDict.AddToTail( { pGameLump[i], compressedSize } ); } } } } } //----------------------------------------------------------------------------- // Re-Loads all of a model's peer data //----------------------------------------------------------------------------- void Mod_TouchAllData( model_t *pModel, int nServerCount ) { double t1 = Plat_FloatTime(); MDLCACHE_CRITICAL_SECTION_( g_pMDLCache ); virtualmodel_t *pVirtualModel = g_pMDLCache->GetVirtualModel( pModel->studio ); double t2 = Plat_FloatTime(); g_flAccumulatedModelLoadTimeVirtualModel += ( t2 - t1 ); if ( pVirtualModel && nServerCount >= 1 ) { // ensure all sub models get current count to avoid purge // mark first to prevent re-entrant issues during possible reload // skip self, start at children for ( int i=1; im_group.Count(); ++i ) { MDLHandle_t childHandle = (MDLHandle_t)(int)pVirtualModel->m_group[i].cache&0xffff; model_t *pChildModel = (model_t *)g_pMDLCache->GetUserData( childHandle ); if ( pChildModel ) { // child inherits parent reference pChildModel->nLoadFlags |= ( pModel->nLoadFlags & IModelLoader::FMODELLOADER_REFERENCEMASK ); pChildModel->nLoadFlags |= IModelLoader::FMODELLOADER_LOADED; pChildModel->nLoadFlags &= ~IModelLoader::FMODELLOADER_LOADED_BY_PRELOAD; pChildModel->nServerCount = nServerCount; } } } // don't touch all the data if ( !mod_forcetouchdata.GetBool() ) return; g_pMDLCache->TouchAllData( pModel->studio ); } //----------------------------------------------------------------------------- // Callbacks to get called when various data is loaded or unloaded //----------------------------------------------------------------------------- class CMDLCacheNotify : public IMDLCacheNotify { public: virtual void OnDataLoaded( MDLCacheDataType_t type, MDLHandle_t handle ); virtual void OnDataUnloaded( MDLCacheDataType_t type, MDLHandle_t handle ); private: void ComputeModelFlags( model_t* mod, MDLHandle_t handle ); // Sets the bounds from the studiohdr void SetBoundsFromStudioHdr( model_t *pModel, MDLHandle_t handle ); }; static CMDLCacheNotify s_MDLCacheNotify; //----------------------------------------------------------------------------- // Computes model flags //----------------------------------------------------------------------------- void CMDLCacheNotify::ComputeModelFlags( model_t* pModel, MDLHandle_t handle ) { studiohdr_t *pStudioHdr = g_pMDLCache->GetStudioHdr( handle ); // Clear out those flags we set... pModel->flags &= ~(MODELFLAG_TRANSLUCENT_TWOPASS | MODELFLAG_VERTEXLIT | MODELFLAG_TRANSLUCENT | MODELFLAG_MATERIALPROXY | MODELFLAG_FRAMEBUFFER_TEXTURE | MODELFLAG_STUDIOHDR_USES_FB_TEXTURE | MODELFLAG_STUDIOHDR_USES_BUMPMAPPING | MODELFLAG_STUDIOHDR_USES_ENV_CUBEMAP ); bool bForceOpaque = (pStudioHdr->flags & STUDIOHDR_FLAGS_FORCE_OPAQUE) != 0; if ( pStudioHdr->flags & STUDIOHDR_FLAGS_TRANSLUCENT_TWOPASS ) { pModel->flags |= MODELFLAG_TRANSLUCENT_TWOPASS; } if ( pStudioHdr->flags & STUDIOHDR_FLAGS_USES_FB_TEXTURE ) { pModel->flags |= MODELFLAG_STUDIOHDR_USES_FB_TEXTURE; } if ( pStudioHdr->flags & STUDIOHDR_FLAGS_USES_BUMPMAPPING ) { pModel->flags |= MODELFLAG_STUDIOHDR_USES_BUMPMAPPING; } if ( pStudioHdr->flags & STUDIOHDR_FLAGS_USES_ENV_CUBEMAP ) { pModel->flags |= MODELFLAG_STUDIOHDR_USES_ENV_CUBEMAP; } if ( pStudioHdr->flags & STUDIOHDR_FLAGS_AMBIENT_BOOST ) { pModel->flags |= MODELFLAG_STUDIOHDR_AMBIENT_BOOST; } if ( pStudioHdr->flags & STUDIOHDR_FLAGS_DO_NOT_CAST_SHADOWS ) { pModel->flags |= MODELFLAG_STUDIOHDR_DO_NOT_CAST_SHADOWS; } IMaterial *pMaterials[ 128 ]; int materialCount = Mod_GetModelMaterials( pModel, ARRAYSIZE( pMaterials ), pMaterials ); for ( int i = 0; i < materialCount; ++i ) { IMaterial *pMaterial = pMaterials[ i ]; if ( !pMaterial ) continue; if ( pMaterial->IsVertexLit() ) { pModel->flags |= MODELFLAG_VERTEXLIT; } if ( !bForceOpaque && pMaterial->IsTranslucent() ) { //Msg("Translucent material %s for model %s\n", pLODData->ppMaterials[i]->GetName(), pModel->name ); pModel->flags |= MODELFLAG_TRANSLUCENT; } if ( pMaterial->HasProxy() ) { pModel->flags |= MODELFLAG_MATERIALPROXY; } if ( pMaterial->NeedsPowerOfTwoFrameBufferTexture( false ) ) // The false checks if it will ever need the frame buffer, not just this frame { pModel->flags |= MODELFLAG_FRAMEBUFFER_TEXTURE; } } } //----------------------------------------------------------------------------- // Sets the bounds from the studiohdr //----------------------------------------------------------------------------- void CMDLCacheNotify::SetBoundsFromStudioHdr( model_t *pModel, MDLHandle_t handle ) { studiohdr_t *pStudioHdr = g_pMDLCache->GetStudioHdr( handle ); VectorCopy( pStudioHdr->hull_min, pModel->mins ); VectorCopy( pStudioHdr->hull_max, pModel->maxs ); pModel->radius = 0.0f; for ( int i = 0; i < 3; i++ ) { if ( fabs(pModel->mins[i]) > pModel->radius ) { pModel->radius = fabs(pModel->mins[i]); } if ( fabs(pModel->maxs[i]) > pModel->radius ) { pModel->radius = fabs(pModel->maxs[i]); } } } //----------------------------------------------------------------------------- // Callbacks to get called when various data is loaded or unloaded //----------------------------------------------------------------------------- void CMDLCacheNotify::OnDataLoaded( MDLCacheDataType_t type, MDLHandle_t handle ) { model_t *pModel = (model_t*)g_pMDLCache->GetUserData( handle ); // NOTE: A NULL model can occur for dependent MDLHandle_ts (like .ani files) if ( !pModel ) return; switch( type ) { case MDLCACHE_STUDIOHDR: { // FIXME: This code only works because it assumes StudioHdr // is loaded before VCollide. SetBoundsFromStudioHdr( pModel, handle ); } break; case MDLCACHE_VCOLLIDE: { SetBoundsFromStudioHdr( pModel, handle ); // Expand the model bounds to enclose the collision model (should be done in studiomdl) vcollide_t *pCollide = g_pMDLCache->GetVCollide( handle ); if ( pCollide ) { Vector mins, maxs; physcollision->CollideGetAABB( &mins, &maxs, pCollide->solids[0], vec3_origin, vec3_angle ); AddPointToBounds( mins, pModel->mins, pModel->maxs ); AddPointToBounds( maxs, pModel->mins, pModel->maxs ); } } break; case MDLCACHE_STUDIOHWDATA: ComputeModelFlags( pModel, handle ); break; } } void CMDLCacheNotify::OnDataUnloaded( MDLCacheDataType_t type, MDLHandle_t handle ) { } //----------------------------------------------------------------------------- // Hooks the cache notify into the MDL cache system //----------------------------------------------------------------------------- void ConnectMDLCacheNotify( ) { g_pMDLCache->SetCacheNotify( &s_MDLCacheNotify ); } void DisconnectMDLCacheNotify( ) { g_pMDLCache->SetCacheNotify( NULL ); } //----------------------------------------------------------------------------- // Initialize studiomdl state //----------------------------------------------------------------------------- void InitStudioModelState( model_t *pModel ) { Assert( pModel->type == mod_studio ); if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_STUDIOHDR ) ) { s_MDLCacheNotify.OnDataLoaded( MDLCACHE_STUDIOHDR, pModel->studio ); } if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_STUDIOHWDATA ) ) { s_MDLCacheNotify.OnDataLoaded( MDLCACHE_STUDIOHWDATA, pModel->studio ); } if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_VCOLLIDE ) ) { s_MDLCacheNotify.OnDataLoaded( MDLCACHE_VCOLLIDE, pModel->studio ); } } //----------------------------------------------------------------------------- // Resource loading for models //----------------------------------------------------------------------------- class CResourcePreloadModel : public CResourcePreload { static void QueuedLoaderMapCallback( void *pContext, void *pContext2, const void *pData, int nSize, LoaderError_t loaderError ) { if ( loaderError == LOADERERROR_NONE ) { // 360 mounts its bsp entirely into memory // this data is discarded at the conclusion of the entire load process Assert( CMapLoadHelper::GetRefCount() == 0 ); CMapLoadHelper::InitFromMemory( (model_t *)pContext, pData, nSize ); } } virtual bool CreateResource( const char *pName ) { modtype_t modType = g_ModelLoader.GetTypeFromName( pName ); // each model type resource has entirely differnt schemes for loading/creating if ( modType == mod_brush ) { // expect to be the map bsp model MEM_ALLOC_CREDIT_( "CResourcePreloadModel(BSP)" ); model_t *pMapModel = g_ModelLoader.FindModelNoCreate( pName ); if ( pMapModel ) { Assert( CMapLoadHelper::GetRefCount() == 0 ); // 360 reads its specialized bsp into memory, // up to the pack lump, which is guranateed last char szLoadName[MAX_PATH]; V_FileBase( pMapModel->strName, szLoadName, sizeof( szLoadName ) ); CMapLoadHelper::Init( pMapModel, szLoadName ); int nBytesToRead = CMapLoadHelper::LumpOffset( LUMP_PAKFILE ); CMapLoadHelper::Shutdown(); // create a loader job to perform i/o operation to mount the .bsp LoaderJob_t loaderJobBSP; loaderJobBSP.m_pFilename = pMapModel->strName; loaderJobBSP.m_pPathID = "GAME"; loaderJobBSP.m_pCallback = QueuedLoaderMapCallback; loaderJobBSP.m_pContext = (void *)pMapModel; loaderJobBSP.m_pTargetData = malloc( nBytesToRead ); loaderJobBSP.m_nBytesToRead = nBytesToRead; loaderJobBSP.m_Priority = LOADERPRIORITY_DURINGPRELOAD; g_pQueuedLoader->AddJob( &loaderJobBSP ); // create an anonymous job to perform i/o operation to mount the .ain // the .ain gets claimed later char szAINName[MAX_PATH] = { 0 }; V_snprintf( szAINName, sizeof( szAINName ), "maps/graphs/%s.360.ain", szLoadName ); LoaderJob_t loaderJobAIN; loaderJobAIN.m_pFilename = szAINName; loaderJobAIN.m_pPathID = "GAME"; loaderJobAIN.m_Priority = LOADERPRIORITY_DURINGPRELOAD; g_pQueuedLoader->AddJob( &loaderJobAIN ); return true; } } else if ( modType == mod_studio ) { MEM_ALLOC_CREDIT_( "CResourcePreloadModel(MDL)" ); char szFilename[MAX_PATH]; V_ComposeFileName( "models", pName, szFilename, sizeof( szFilename ) ); // find model or create empty entry model_t *pModel = g_ModelLoader.FindModel( szFilename ); // mark as touched pModel->nLoadFlags |= IModelLoader::FMODELLOADER_TOUCHED_BY_PRELOAD; if ( pModel->nLoadFlags & ( IModelLoader::FMODELLOADER_LOADED|IModelLoader::FMODELLOADER_LOADED_BY_PRELOAD ) ) { // already loaded or preloaded return true; } // the model in not supposed to be in memory Assert( pModel->type == mod_bad ); // set its type pModel->type = mod_studio; // mark the model so that the normal studio load path can perform a final fixup pModel->nLoadFlags |= IModelLoader::FMODELLOADER_LOADED_BY_PRELOAD; // setup the new entry for preload to operate pModel->studio = g_pMDLCache->FindMDL( pModel->strName ); // the model is not supposed to be in memory // if this hits, the mdlcache is out of sync with the modelloder // if this hits, the mdlcache has the model, but the modelloader doesn't think so // if the refcounts go haywire, bad evil bugs will occur Assert( g_pMDLCache->GetRef( pModel->studio ) == 1 ); g_pMDLCache->SetUserData( pModel->studio, pModel ); // get it into the cache g_pMDLCache->PreloadModel( pModel->studio ); return true; } // unknown return false; } //----------------------------------------------------------------------------- // Called before queued loader i/o jobs are actually performed. Must free up memory // to ensure i/o requests have enough memory to succeed. The models that were // touched by the CreateResource() are the ones to keep, all others get purged. //----------------------------------------------------------------------------- virtual void PurgeUnreferencedResources() { bool bSpew = ( g_pQueuedLoader->GetSpewDetail() & LOADER_DETAIL_PURGES ) != 0; // purge any model that was not touched by the preload process int iIndex = -1; CUtlVector< model_t* > firstList; CUtlVector< model_t* > otherList; for ( ;; ) { model_t *pModel; iIndex = g_ModelLoader.FindNext( iIndex, &pModel ); if ( iIndex == -1 || !pModel ) { // end of list break; } if ( pModel->type == mod_studio ) { // models that were touched during the preload stay, otherwise purged if ( pModel->nLoadFlags & IModelLoader::FMODELLOADER_TOUCHED_BY_PRELOAD ) { pModel->nLoadFlags &= ~IModelLoader::FMODELLOADER_TOUCHED_BY_PRELOAD; } else { if ( bSpew ) { Msg( "CResourcePreloadModel: Purging: %s\n", pModel->strName.String() ); } // Models that have virtual models have to unload first to // ensure they properly unreference their virtual models. if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_VIRTUALMODEL ) ) { firstList.AddToTail( pModel ); } else { otherList.AddToTail( pModel ); } } } } for ( int i=0; iIsSameMapLoading() ) { g_pMDLCache->Flush( MDLCACHE_FLUSH_ANIMBLOCK ); } } virtual void PurgeAll() { bool bSpew = ( g_pQueuedLoader->GetSpewDetail() & LOADER_DETAIL_PURGES ) != 0; // purge any model that was not touched by the preload process int iIndex = -1; CUtlVector< model_t* > firstList; CUtlVector< model_t* > otherList; for ( ;; ) { model_t *pModel; iIndex = g_ModelLoader.FindNext( iIndex, &pModel ); if ( iIndex == -1 || !pModel ) { // end of list break; } if ( pModel->type == mod_studio ) { pModel->nLoadFlags &= ~IModelLoader::FMODELLOADER_TOUCHED_BY_PRELOAD; if ( bSpew ) { Msg( "CResourcePreloadModel: Purging: %s\n", pModel->strName.String() ); } // Models that have virtual models have to unload first to // ensure they properly unreference their virtual models. if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_VIRTUALMODEL ) ) { firstList.AddToTail( pModel ); } else { otherList.AddToTail( pModel ); } } } for ( int i=0; iFlush( MDLCACHE_FLUSH_ANIMBLOCK ); } virtual void OnEndMapLoading( bool bAbort ) { // discard the memory mounted bsp CMapLoadHelper::Shutdown(); Assert( CMapLoadHelper::GetRefCount() == 0 ); } }; static CResourcePreloadModel s_ResourcePreloadModel; //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::Init( void ) { m_Models.RemoveAll(); m_InlineModels.Purge(); m_pWorldModel = NULL; m_bMapRenderInfoLoaded = false; m_bMapHasHDRLighting = false; g_bLoadedMapHasBakedPropLighting = false; // Make sure we have physcollision and physprop interfaces CollisionBSPData_LinkPhysics(); m_szActiveMapName[0] = '\0'; g_pQueuedLoader->InstallLoader( RESOURCEPRELOAD_MODEL, &s_ResourcePreloadModel ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::Shutdown( void ) { m_pWorldModel = NULL; ForceUnloadNonClientDynamicModels(); UnloadAllModels( false ); m_ModelPool.Clear(); } int CModelLoader::GetCount( void ) { Assert( m_Models.Count() == m_Models.MaxElement() ); return m_Models.Count(); } model_t *CModelLoader::GetModelForIndex( int i ) { if ( i < 0 || (unsigned)i >= m_Models.Count() ) { Assert( !m_Models.IsValidIndex( i ) ); return NULL; } Assert( m_Models.IsValidIndex( i ) ); return m_Models[i].modelpointer; } //----------------------------------------------------------------------------- // Purpose: Look up name for model // Input : *model - // Output : const char //----------------------------------------------------------------------------- const char *CModelLoader::GetName( const model_t *pModel ) { if ( pModel ) { return pModel->strName; } return NULL; } //----------------------------------------------------------------------------- // Purpose: Finds the model, builds entry if not present, always returns a model // Input : *name - // referencetype - // Output : model_t //----------------------------------------------------------------------------- model_t *CModelLoader::FindModel( const char *pName ) { if ( !pName || !pName[0] ) { Sys_Error( "CModelLoader::FindModel: NULL name" ); } // inline models are grabbed only from worldmodel if ( pName[0] == '*' ) { int modelNum = atoi( pName + 1 ); if ( !IsWorldModelSet() ) { Sys_Error( "bad inline model number %i, worldmodel not yet setup", modelNum ); } if ( modelNum < 1 || modelNum >= GetNumWorldSubmodels() ) { Sys_Error( "bad inline model number %i", modelNum ); } return &m_InlineModels[modelNum]; } model_t *pModel = NULL; // get a handle suitable to use as the model key // handles are insensitive to case and slashes FileNameHandle_t fnHandle = g_pFileSystem->FindOrAddFileName( pName ); int i = m_Models.Find( fnHandle ); if ( i == m_Models.InvalidIndex() ) { pModel = (model_t *)m_ModelPool.Alloc(); Assert( pModel ); memset( pModel, 0, sizeof( model_t ) ); pModel->fnHandle = fnHandle; // Mark that we should load from disk pModel->nLoadFlags = FMODELLOADER_NOTLOADEDORREFERENCED; // Copy in name and normalize! // Various other subsystems fetch this 'object' name to do dictionary lookups, // which are usually case insensitive, but not to slashes or dotslashes. pModel->strName = pName; V_RemoveDotSlashes( pModel->strName.GetForModify(), '/' ); ModelEntry_t entry; entry.modelpointer = pModel; m_Models.Insert( fnHandle, entry ); } else { pModel = m_Models[i].modelpointer; } // notify the reslist generator that this model may be referenced later in the level // (does nothing if reslist generation is not enabled) MapReslistGenerator().OnModelPrecached( pName ); Assert( pModel ); return pModel; } //----------------------------------------------------------------------------- // Purpose: Finds the model, and loads it if it isn't already present. Updates reference flags // Input : *name - // referencetype - // Output : model_t //----------------------------------------------------------------------------- model_t *CModelLoader::GetModelForName( const char *name, REFERENCETYPE referencetype ) { AssertMsg( !(referencetype & FMODELLOADER_DYNAMIC), "GetModelForName: dynamic models must use GetDynamicModel" ); // find or build new entry model_t *model = FindModel( name ); // touch and load if not present model_t *retval = LoadModel( model, &referencetype ); return retval; } //----------------------------------------------------------------------------- // Purpose: Add a reference to the model in question // Input : *name - // referencetype - //----------------------------------------------------------------------------- model_t *CModelLoader::ReferenceModel( const char *name, REFERENCETYPE referencetype ) { AssertMsg( !(referencetype & FMODELLOADER_DYNAMIC), "ReferenceModel: do not use for dynamic models" ); model_t *model = FindModel( name ); model->nLoadFlags |= referencetype; return model; } //----------------------------------------------------------------------------- // Purpose: // Input : *entry - // referencetype - //----------------------------------------------------------------------------- model_t *CModelLoader::LoadModel( model_t *mod, REFERENCETYPE *pReferencetype ) { if ( pReferencetype ) { mod->nLoadFlags |= *pReferencetype; } // during initial load mark the model with an unique session ticket // at load end, models that have a mismatch count are considered candidates for purge // models that get marked, touch *all* their sub data to ensure the cache is pre-populated // and hitches less during gameplay bool bTouchAllData = false; int nServerCount = Host_GetServerCount(); if ( mod->nServerCount != nServerCount ) { // server has changed mod->nServerCount = nServerCount; bTouchAllData = true; } // Check if the studio model is in cache. // The model type will not be set for first time models that need to fall through to the load path. // A model that needs a post precache fixup will fall through to the load path. if ( mod->type == mod_studio && !( mod->nLoadFlags & FMODELLOADER_LOADED_BY_PRELOAD ) ) { // in cache Verify( g_pMDLCache->GetStudioHdr( mod->studio ) != 0 ); Assert( FMODELLOADER_LOADED & mod->nLoadFlags ); if ( bTouchAllData ) { // Touch all related .ani files and sub/dependent models // only touches once, when server changes Mod_TouchAllData( mod, nServerCount ); } return mod; } // Check if brushes or sprites are loaded if ( FMODELLOADER_LOADED & mod->nLoadFlags ) { return mod; } // model needs to be loaded double st = Plat_FloatTime(); // Set the name of the current model we are loading Q_FileBase( mod->strName, m_szLoadName, sizeof( m_szLoadName ) ); // load the file if ( developer.GetInt() > 1 ) { DevMsg( "Loading: %s\n", mod->strName.String() ); } mod->type = GetTypeFromName( mod->strName ); if ( mod->type == mod_bad ) { mod->type = mod_studio; } // finalize the model data switch ( mod->type ) { case mod_sprite: { MDLCACHE_CRITICAL_SECTION_( g_pMDLCache ); double t1 = Plat_FloatTime(); Sprite_LoadModel( mod ); double t2 = Plat_FloatTime(); g_flAccumulatedModelLoadTimeSprite += ( t2 - t1 ); } break; case mod_studio: { MDLCACHE_CRITICAL_SECTION_( g_pMDLCache ); double t1 = Plat_FloatTime(); Studio_LoadModel( mod, bTouchAllData ); double t2 = Plat_FloatTime(); g_flAccumulatedModelLoadTimeStudio += ( t2 - t1 ); } break; case mod_brush: { double t1 = Plat_FloatTime(); // This is necessary on dedicated clients. On listen + dedicated servers, it's called twice. // The second invocation is harmless. // Add to file system before loading so referenced objects in map can use the filename. g_pFileSystem->AddSearchPath( mod->strName, "GAME", PATH_ADD_TO_HEAD ); // the map may have explicit texture exclusion // the texture state needs to be established before any loading work if ( IsX360() || mat_excludetextures.GetBool() ) { char szExcludePath[MAX_PATH]; sprintf( szExcludePath, "//MOD/maps/%s_exclude.lst", m_szLoadName ); g_pMaterialSystem->SetExcludedTextures( szExcludePath ); } // need this before queued loader starts, various systems use this as a cheap map changed state V_strncpy( m_szActiveMapName, mod->strName, sizeof( m_szActiveMapName ) ); //NotifyHunkBeginMapLoad( m_szActiveMapName ); bool bQueuedLoader = false; if ( IsX360() ) { // must establish the bsp feature set first to ensure proper state during queued loading Map_CheckForHDR( mod, m_szLoadName ); // Do not optimize map-to-same-map loading in TF // FIXME/HACK: this fixes a bug (when shipping Orange Box) where static props would sometimes // disappear when a client disconnects and reconnects to the same map+server // (static prop lighting data persists when loading map A after map A) bool bIsTF = !V_stricmp( COM_GetModDirectory(), "tf" ); bool bOptimizeMapReload = !bIsTF; // start the queued loading process bQueuedLoader = g_pQueuedLoader->BeginMapLoading( mod->strName, g_pMaterialSystemHardwareConfig->GetHDREnabled(), bOptimizeMapReload ); } // the queued loader process needs to own the actual texture update if ( !bQueuedLoader && ( IsX360() || mat_excludetextures.GetBool() ) ) { g_pMaterialSystem->UpdateExcludedTextures(); } BeginLoadingUpdates( MATERIAL_NON_INTERACTIVE_MODE_LEVEL_LOAD ); g_pFileSystem->BeginMapAccess(); Map_LoadModel( mod ); g_pFileSystem->EndMapAccess(); double t2 = Plat_FloatTime(); g_flAccumulatedModelLoadTimeBrush += (t2 - t1); } break; default: Assert( 0 ); break; }; float dt = ( Plat_FloatTime() - st ); COM_TimestampedLog( "Load of %s took %.3f msec", mod->strName.String(), 1000.0f * dt ); g_flAccumulatedModelLoadTime += dt; return mod; } //----------------------------------------------------------------------------- // Purpose: Creates the name of the sprite //----------------------------------------------------------------------------- //static void BuildSpriteLoadName( const char *pName, char *pOut, int outLen, bool &bIsAVI, bool &bIsBIK ) static void BuildSpriteLoadName( const char *pName, char *pOut, int outLen, bool &bIsVideo ) { // If it's a .vmt and they put a path in there, then use the path. // Otherwise, use the old method of prepending the sprites directory. Assert( pName != NULL && pOut != NULL ); bIsVideo = false; bool bIsVMT = false; const char *pExt = V_GetFileExtension( pName ); if ( pExt != NULL ) { bIsVMT = !Q_stricmp( pExt, "vmt" ); if ( !bIsVMT ) { if ( g_pVideo ) { bIsVideo = ( g_pVideo->LocateVideoSystemForPlayingFile( pName ) != VideoSystem::NONE ); } } } if ( ( bIsVideo || bIsVMT ) && ( strchr( pName, '/' ) || strchr( pName, '\\' ) ) ) { // The material system cannot handle a prepended "materials" dir // Keep .avi extensions on the material to load avi-based materials if ( bIsVMT ) { const char *pNameStart = pName; if ( Q_stristr( pName, "materials/" ) == pName || Q_stristr( pName, "materials\\" ) == pName ) { // skip past materials/ pNameStart = &pName[10]; } Q_StripExtension( pNameStart, pOut, outLen ); } else { // name is good as is Q_strncpy( pOut, pName, outLen ); } } else { char szBase[MAX_PATH]; Q_FileBase( pName, szBase, sizeof( szBase ) ); Q_snprintf( pOut, outLen, "sprites/%s", szBase ); } return; } //----------------------------------------------------------------------------- // Purpose: // Input : *name - // Output : int //----------------------------------------------------------------------------- int CModelLoader::GetModelFileSize( char const *name ) { if ( !name || !name[ 0 ] ) return -1; model_t *model = FindModel( name ); int size = -1; if ( Q_stristr( model->strName, ".spr" ) || Q_stristr( model->strName, ".vmt" ) ) { char spritename[ MAX_PATH ]; Q_StripExtension( va( "materials/%s", model->strName.String() ), spritename, MAX_PATH ); Q_DefaultExtension( spritename, ".vmt", sizeof( spritename ) ); size = COM_FileSize( spritename ); } else { size = COM_FileSize( name ); } return size; } //----------------------------------------------------------------------------- // Purpose: Unmasks the referencetype field for the model // Input : *model - // referencetype - //----------------------------------------------------------------------------- void CModelLoader::UnreferenceModel( model_t *model, REFERENCETYPE referencetype ) { AssertMsg( !(referencetype & FMODELLOADER_DYNAMIC), "UnreferenceModel: do not use for dynamic models" ); model->nLoadFlags &= ~referencetype; } //----------------------------------------------------------------------------- // Purpose: Unmasks the specified reference type across all models // Input : referencetype - //----------------------------------------------------------------------------- void CModelLoader::UnreferenceAllModels( REFERENCETYPE referencetype ) { AssertMsg( !(referencetype & FMODELLOADER_DYNAMIC), "UnreferenceAllModels: do not use for dynamic models" ); // UNDONE: If we ever free a studio model, write code to free the collision data // UNDONE: Reference count collision data? FOR_EACH_MAP_FAST( m_Models, i ) { m_Models[ i ].modelpointer->nLoadFlags &= ~referencetype; } } //----------------------------------------------------------------------------- // Purpose: When changing servers the old servercount number is bogus. This // marks all models as loaded from -1 (e.g. a server count from the // before time.) //----------------------------------------------------------------------------- void CModelLoader::ResetModelServerCounts() { FOR_EACH_MAP_FAST( m_Models, i ) { model_t *pModel = m_Models[i].modelpointer; pModel->nServerCount = -1; } } void CModelLoader::ReloadFilesInList( IFileList *pFilesToReload ) { FOR_EACH_MAP_FAST( m_Models, i ) { model_t *pModel = m_Models[i].modelpointer; if ( pModel->type != mod_studio ) continue; if ( !IsLoaded( pModel ) ) continue; if ( pModel->type != mod_studio ) continue; if ( pFilesToReload->IsFileInList( pModel->strName ) ) { #ifdef PURE_SERVER_DEBUG_SPEW Msg( "Reloading model %s\n", pModel->strName.String() ); #endif // Flush out the model cache // Don't flush vcollides since the vphysics system currently // has no way of indicating they refer to vcollides g_pMDLCache->Flush( pModel->studio, (int)(MDLCACHE_FLUSH_ALL & (~MDLCACHE_FLUSH_VCOLLIDE)) ); MDLCACHE_CRITICAL_SECTION_( g_pMDLCache ); // Get the studiohdr into the cache g_pMDLCache->GetStudioHdr( pModel->studio ); #ifndef _XBOX // force the collision to load g_pMDLCache->GetVCollide( pModel->studio ); #endif } else { if ( g_pMDLCache->IsDataLoaded( pModel->studio, MDLCACHE_STUDIOHWDATA ) ) { studiohdr_t *pStudioHdr = g_pMDLCache->GetStudioHdr( pModel->studio ); if ( pStudioHdr ) { // Ok, we didn't have to do a full reload, but if any of our materials changed, flush out the studiohwdata because the // vertex format may have changed. IMaterial *pMaterials[128]; int nMaterials = g_pStudioRender->GetMaterialList( pStudioHdr, ARRAYSIZE( pMaterials ), &pMaterials[0] ); for ( int iMat=0; iMat < nMaterials; iMat++ ) { if ( pMaterials[iMat] && pMaterials[iMat]->WasReloadedFromWhitelist() ) { #ifdef PURE_SERVER_DEBUG_SPEW Msg( "Reloading model %s because material %s was reloaded\n", pModel->strName.String(), pMaterials[iMat]->GetName() ); #endif g_pMDLCache->Flush( pModel->studio, MDLCACHE_FLUSH_STUDIOHWDATA ); break; } } } } } } } //----------------------------------------------------------------------------- // Purpose: For any models with referencetype blank (if checking), frees all memory associated with the model // and frees up the models slot //----------------------------------------------------------------------------- void CModelLoader::UnloadAllModels( bool bCheckReference ) { model_t *model; FOR_EACH_MAP_FAST( m_Models, i ) { model = m_Models[ i ].modelpointer; if ( bCheckReference ) { if ( model->nLoadFlags & FMODELLOADER_REFERENCEMASK ) { if ( model->type == mod_studio ) { g_pMDLCache->MarkAsLoaded(model->studio); } continue; } } else { // Wipe current flags model->nLoadFlags &= ~FMODELLOADER_REFERENCEMASK; } if ( IsX360() && g_pQueuedLoader->IsMapLoading() && ( model->nLoadFlags & FMODELLOADER_LOADED_BY_PRELOAD ) ) { // models preloaded by the queued loader are not initially claimed and MUST remain until the end of the load process // unclaimed models get unloaded during the post load purge continue; } if ( model->nLoadFlags & ( FMODELLOADER_LOADED | FMODELLOADER_LOADED_BY_PRELOAD ) ) { UnloadModel( model ); } } } //----------------------------------------------------------------------------- // Purpose: For any models with referencetype blank (if checking), frees all memory associated with the model // and frees up the models slot //----------------------------------------------------------------------------- void CModelLoader::UnloadUnreferencedModels( void ) { // unload all unreferenced models UnloadAllModels( true ); } //----------------------------------------------------------------------------- // Called at the conclusion of loading. // Frees all memory associated with models (and their materials) that are not // marked with the current session. //----------------------------------------------------------------------------- void CModelLoader::PurgeUnusedModels( void ) { int nServerCount = Host_GetServerCount(); FOR_EACH_MAP_FAST( m_Models, i ) { model_t *pModel = m_Models[i].modelpointer; if ( ( pModel->nLoadFlags & FMODELLOADER_LOADED ) && ( pModel->nServerCount != nServerCount ) ) { // mark as unreferenced // do not unload dynamic models pModel->nLoadFlags &= (~FMODELLOADER_REFERENCEMASK) | FMODELLOADER_DYNAMIC; } } // flush dynamic models that have no refcount FlushDynamicModels(); // unload unreferenced models only UnloadAllModels( true ); // now purge unreferenced materials materials->UncacheUnusedMaterials( true ); } //----------------------------------------------------------------------------- // Compute whether this submodel uses material proxies or not //----------------------------------------------------------------------------- static void Mod_ComputeBrushModelFlags( model_t *mod ) { Assert( mod ); worldbrushdata_t *pBrushData = mod->brush.pShared; // Clear out flags we're going to set mod->flags &= ~(MODELFLAG_MATERIALPROXY | MODELFLAG_TRANSLUCENT | MODELFLAG_FRAMEBUFFER_TEXTURE | MODELFLAG_TRANSLUCENT_TWOPASS ); mod->flags = MODELFLAG_HAS_DLIGHT; // force this check the first time int i; int scount = mod->brush.nummodelsurfaces; bool bHasOpaqueSurfaces = false; bool bHasTranslucentSurfaces = false; for ( i = 0; i < scount; ++i ) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( mod->brush.firstmodelsurface + i, pBrushData ); // Clear out flags we're going to set MSurf_Flags( surfID ) &= ~(SURFDRAW_NOCULL | SURFDRAW_TRANS | SURFDRAW_ALPHATEST | SURFDRAW_NODECALS); mtexinfo_t *pTex = MSurf_TexInfo( surfID, pBrushData ); IMaterial* pMaterial = pTex->material; if ( pMaterial->HasProxy() ) { mod->flags |= MODELFLAG_MATERIALPROXY; } if ( pMaterial->NeedsPowerOfTwoFrameBufferTexture( false ) ) // The false checks if it will ever need the frame buffer, not just this frame { mod->flags |= MODELFLAG_FRAMEBUFFER_TEXTURE; } // Deactivate culling if the material is two sided if ( pMaterial->IsTwoSided() ) { MSurf_Flags( surfID ) |= SURFDRAW_NOCULL; } if ( (pTex->flags & SURF_TRANS) || pMaterial->IsTranslucent() ) { mod->flags |= MODELFLAG_TRANSLUCENT; MSurf_Flags( surfID ) |= SURFDRAW_TRANS; bHasTranslucentSurfaces = true; } else { bHasOpaqueSurfaces = true; } // Certain surfaces don't want decals at all if ( (pTex->flags & SURF_NODECALS) || pMaterial->GetMaterialVarFlag( MATERIAL_VAR_SUPPRESS_DECALS ) || pMaterial->IsAlphaTested() ) { MSurf_Flags( surfID ) |= SURFDRAW_NODECALS; } if ( pMaterial->IsAlphaTested() ) { MSurf_Flags( surfID ) |= SURFDRAW_ALPHATEST; } } if ( bHasOpaqueSurfaces && bHasTranslucentSurfaces ) { mod->flags |= MODELFLAG_TRANSLUCENT_TWOPASS; } } //----------------------------------------------------------------------------- // Recomputes translucency for the model... //----------------------------------------------------------------------------- void Mod_RecomputeTranslucency( model_t* mod, int nSkin, int nBody, void /*IClientRenderable*/ *pClientRenderable, float fInstanceAlphaModulate ) { if (fInstanceAlphaModulate < 1.0f) { mod->flags |= MODELFLAG_TRANSLUCENT; return; } mod->flags &= ~MODELFLAG_TRANSLUCENT; switch( mod->type ) { case mod_brush: { for (int i = 0; i < mod->brush.nummodelsurfaces; ++i) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( mod->brush.firstmodelsurface+i, mod->brush.pShared ); if ( MSurf_Flags( surfID ) & SURFDRAW_NODRAW ) continue; IMaterial* material = MSurf_TexInfo( surfID, mod->brush.pShared )->material; if ( material->IsTranslucent() ) { mod->flags |= MODELFLAG_TRANSLUCENT; break; } } } break; case mod_studio: { studiohdr_t *pStudioHdr = g_pMDLCache->GetStudioHdr( mod->studio ); if ( pStudioHdr->flags & STUDIOHDR_FLAGS_FORCE_OPAQUE ) return; IMaterial *pMaterials[ 128 ]; int materialCount = g_pStudioRender->GetMaterialListFromBodyAndSkin( mod->studio, nSkin, nBody, ARRAYSIZE( pMaterials ), pMaterials ); for ( int i = 0; i < materialCount; i++ ) { if ( pMaterials[i] != NULL ) { // Bind material first so all material proxies execute CMatRenderContextPtr pRenderContext( g_pMaterialSystem ); pRenderContext->Bind( pMaterials[i], pClientRenderable ); bool bIsTranslucent = pMaterials[i]->IsTranslucent(); if ( bIsTranslucent ) { mod->flags |= MODELFLAG_TRANSLUCENT; break; } } } } break; } } //----------------------------------------------------------------------------- // returns the material count... //----------------------------------------------------------------------------- int Mod_GetMaterialCount( model_t* mod ) { switch( mod->type ) { case mod_brush: { CUtlVector uniqueMaterials( 0, 32 ); for (int i = 0; i < mod->brush.nummodelsurfaces; ++i) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( mod->brush.firstmodelsurface + i, mod->brush.pShared ); if ( MSurf_Flags( surfID ) & SURFDRAW_NODRAW ) continue; IMaterial* pMaterial = MSurf_TexInfo( surfID, mod->brush.pShared )->material; // Try to find the material in the unique list of materials // if it's not there, then add it if (uniqueMaterials.Find(pMaterial) < 0) uniqueMaterials.AddToTail(pMaterial); } return uniqueMaterials.Size(); } break; case mod_studio: { // FIXME: This should return the list of all materials // across all LODs if we every decide to implement this Assert(0); } break; default: // unimplemented Assert(0); break; } return 0; } //----------------------------------------------------------------------------- // returns the first n materials. //----------------------------------------------------------------------------- int Mod_GetModelMaterials( model_t* pModel, int count, IMaterial** ppMaterials ) { studiohdr_t *pStudioHdr; int found = 0; int i; switch( pModel->type ) { case mod_brush: { for ( i = 0; i < pModel->brush.nummodelsurfaces; ++i) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( pModel->brush.firstmodelsurface + i, pModel->brush.pShared ); if ( MSurf_Flags( surfID ) & SURFDRAW_NODRAW ) continue; IMaterial* pMaterial = MSurf_TexInfo( surfID, pModel->brush.pShared )->material; // Try to find the material in the unique list of materials // if it's not there, then add it int j = found; while ( --j >= 0 ) { if ( ppMaterials[j] == pMaterial ) break; } if (j < 0) ppMaterials[found++] = pMaterial; // Stop when we've gotten count materials if ( found >= count ) return found; } } break; case mod_studio: if ( pModel->ppMaterials ) { int nMaterials = ((intptr_t*)(pModel->ppMaterials))[-1]; found = MIN( count, nMaterials ); memcpy( ppMaterials, pModel->ppMaterials, found * sizeof( IMaterial* ) ); } else { // Get the studiohdr into the cache pStudioHdr = g_pMDLCache->GetStudioHdr( pModel->studio ); // Get the list of materials found = g_pStudioRender->GetMaterialList( pStudioHdr, count, ppMaterials ); } break; default: // unimplemented Assert( 0 ); break; } return found; } void Mod_SetMaterialVarFlag( model_t *pModel, unsigned int uiFlag, bool on ) { MaterialVarFlags_t flag = (MaterialVarFlags_t)uiFlag; IMaterial *pMaterials[ 128 ]; if ( pModel ) { int materialCount = Mod_GetModelMaterials( pModel, ARRAYSIZE( pMaterials ), pMaterials ); for ( int i = 0; i < materialCount; ++i ) { IMaterial *pMaterial = pMaterials[ i ]; if ( pMaterial ) { pMaterial->SetMaterialVarFlag( flag, on ); } } } } //----------------------------------------------------------------------------- // Used to compute which surfaces are in water or not //----------------------------------------------------------------------------- static void MarkWaterSurfaces_ProcessLeafNode( mleaf_t *pLeaf ) { int i; int flags = ( pLeaf->leafWaterDataID == -1 ) ? SURFDRAW_ABOVEWATER : SURFDRAW_UNDERWATER; SurfaceHandle_t *pHandle = &host_state.worldbrush->marksurfaces[pLeaf->firstmarksurface]; for( i = 0; i < pLeaf->nummarksurfaces; i++ ) { SurfaceHandle_t surfID = pHandle[i]; ASSERT_SURF_VALID( surfID ); if( MSurf_Flags( surfID ) & SURFDRAW_WATERSURFACE ) continue; if (SurfaceHasDispInfo( surfID )) continue; MSurf_Flags( surfID ) |= flags; } // FIXME: This is somewhat bogus, but I can do it quickly, and it's // not clear I need to solve the harder problem. // If any portion of a displacement surface hits a water surface, // I'm going to mark it as being in water, and vice versa. for ( i = 0; i < pLeaf->dispCount; i++ ) { IDispInfo *pDispInfo = MLeaf_Disaplcement( pLeaf, i ); if ( pDispInfo ) { SurfaceHandle_t parentSurfID = pDispInfo->GetParent(); MSurf_Flags( parentSurfID ) |= flags; } } } void MarkWaterSurfaces_r( mnode_t *node ) { // no polygons in solid nodes if (node->contents == CONTENTS_SOLID) return; // solid // if a leaf node, . .mark all the polys as to whether or not they are in water. if (node->contents >= 0) { MarkWaterSurfaces_ProcessLeafNode( (mleaf_t *)node ); return; } MarkWaterSurfaces_r( node->children[0] ); MarkWaterSurfaces_r( node->children[1] ); } //----------------------------------------------------------------------------- // Computes the sort group for a particular face //----------------------------------------------------------------------------- static int SurfFlagsToSortGroup( SurfaceHandle_t surfID, int flags ) { // If we're on the low end, stick everything into the same sort group if ( g_pMaterialSystemHardwareConfig->GetDXSupportLevel() < 80 ) return MAT_SORT_GROUP_STRICTLY_ABOVEWATER; if( flags & SURFDRAW_WATERSURFACE ) return MAT_SORT_GROUP_WATERSURFACE; if( ( flags & ( SURFDRAW_UNDERWATER | SURFDRAW_ABOVEWATER ) ) == ( SURFDRAW_UNDERWATER | SURFDRAW_ABOVEWATER ) ) return MAT_SORT_GROUP_INTERSECTS_WATER_SURFACE; if( flags & SURFDRAW_UNDERWATER ) return MAT_SORT_GROUP_STRICTLY_UNDERWATER; if( flags & SURFDRAW_ABOVEWATER ) return MAT_SORT_GROUP_STRICTLY_ABOVEWATER; static int warningcount = 0; if ( ++warningcount < 10 ) { Vector vecCenter; Surf_ComputeCentroid( surfID, &vecCenter ); DevWarning( "SurfFlagsToSortGroup: unhandled flags (%X) (%s)!\n", flags, MSurf_TexInfo(surfID)->material->GetName() ); DevWarning( "- This implies you have a surface (usually a displacement) embedded in solid.\n" ); DevWarning( "- Look near (%.1f, %.1f, %.1f)\n", vecCenter.x, vecCenter.y, vecCenter.z ); } //Assert( 0 ); return MAT_SORT_GROUP_STRICTLY_ABOVEWATER; } //----------------------------------------------------------------------------- // Computes sort group //----------------------------------------------------------------------------- bool Mod_MarkWaterSurfaces( model_t *pModel ) { bool bHasWaterSurfaces = false; model_t *pSaveModel = host_state.worldmodel; // garymcthack!!!!!!!! // host_state.worldmodel isn't set at this point, so. . . . host_state.SetWorldModel( pModel ); MarkWaterSurfaces_r( pModel->brush.pShared->nodes ); for ( int i = 0; i < pModel->brush.pShared->numsurfaces; i++ ) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( i, pModel->brush.pShared ); int sortGroup = SurfFlagsToSortGroup( surfID, MSurf_Flags( surfID ) ); if ( sortGroup == MAT_SORT_GROUP_WATERSURFACE ) { bHasWaterSurfaces = true; } MSurf_SetSortGroup( surfID, sortGroup ); } host_state.SetWorldModel( pSaveModel ); return bHasWaterSurfaces; } //----------------------------------------------------------------------------- // Marks identity brushes as being in fog volumes or not //----------------------------------------------------------------------------- class CBrushBSPIterator : public ISpatialLeafEnumerator { public: CBrushBSPIterator( model_t *pWorld, model_t *pBrush ) { m_pWorld = pWorld; m_pBrush = pBrush; m_pShared = pBrush->brush.pShared; m_count = 0; } bool EnumerateLeaf( int leaf, int ) { // garymcthack - need to test identity brush models int flags = ( m_pShared->leafs[leaf].leafWaterDataID == -1 ) ? SURFDRAW_ABOVEWATER : SURFDRAW_UNDERWATER; MarkModelSurfaces( flags ); m_count++; return true; } void MarkModelSurfaces( int flags ) { // Iterate over all this models surfaces int surfaceCount = m_pBrush->brush.nummodelsurfaces; for (int i = 0; i < surfaceCount; ++i) { SurfaceHandle_t surfID = SurfaceHandleFromIndex( m_pBrush->brush.firstmodelsurface + i, m_pShared ); MSurf_Flags( surfID ) &= ~(SURFDRAW_ABOVEWATER | SURFDRAW_UNDERWATER); MSurf_Flags( surfID ) |= flags; } } void CheckSurfaces() { if ( !m_count ) { MarkModelSurfaces( SURFDRAW_ABOVEWATER ); } } model_t* m_pWorld; model_t* m_pBrush; worldbrushdata_t *m_pShared; int m_count; }; static void MarkBrushModelWaterSurfaces( model_t* world, Vector const& mins, Vector const& maxs, model_t* brush ) { // HACK: This is a totally brutal hack dealing with initialization order issues. // I want to use the same box enumeration code so I don't have multiple // copies, but I want to use it from modelloader. host_state.worldmodel isn't // set up at that time however, so I have to fly through these crazy hoops. // Massive suckage. model_t* pTemp = host_state.worldmodel; CBrushBSPIterator brushIterator( world, brush ); host_state.SetWorldModel( world ); g_pToolBSPTree->EnumerateLeavesInBox( mins, maxs, &brushIterator, (int)brush ); brushIterator.CheckSurfaces(); host_state.SetWorldModel( pTemp ); } int g_nMapLoadCount = 0; //----------------------------------------------------------------------------- // Purpose: // Input : *mod - // *buffer - //----------------------------------------------------------------------------- void CModelLoader::Map_LoadModel( model_t *mod ) { ++g_nMapLoadCount; MEM_ALLOC_CREDIT(); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif Assert( !( mod->nLoadFlags & FMODELLOADER_LOADED ) ); COM_TimestampedLog( "Map_LoadModel: Start" ); double startTime = Plat_FloatTime(); SetWorldModel( mod ); // point at the shared world/brush data mod->brush.pShared = &m_worldBrushData; mod->brush.renderHandle = 0; // HDR and features must be established first COM_TimestampedLog( " Map_CheckForHDR" ); m_bMapHasHDRLighting = Map_CheckForHDR( mod, m_szLoadName ); if ( IsX360() && !m_bMapHasHDRLighting ) { Warning( "Map '%s' lacks exepected HDR data! 360 does not support accurate LDR visuals.", m_szLoadName ); } // Load the collision model COM_TimestampedLog( " CM_LoadMap" ); unsigned int checksum; CM_LoadMap( mod->strName, false, &checksum ); // Load the map mod->type = mod_brush; mod->nLoadFlags |= FMODELLOADER_LOADED; CMapLoadHelper::Init( mod, m_szLoadName ); COM_TimestampedLog( " Mod_LoadVertices" ); Mod_LoadVertices(); COM_TimestampedLog( " Mod_LoadEdges" ); medge_t *pedges = Mod_LoadEdges(); COM_TimestampedLog( " Mod_LoadSurfedges" ); Mod_LoadSurfedges( pedges ); COM_TimestampedLog( " Mod_LoadPlanes" ); Mod_LoadPlanes(); COM_TimestampedLog( " Mod_LoadOcclusion" ); Mod_LoadOcclusion(); // texdata needs to load before texinfo COM_TimestampedLog( " Mod_LoadTexdata" ); Mod_LoadTexdata(); COM_TimestampedLog( " Mod_LoadTexinfo" ); Mod_LoadTexinfo(); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif // Until BSP version 19, this must occur after loading texinfo COM_TimestampedLog( " Mod_LoadLighting" ); if ( g_pMaterialSystemHardwareConfig->GetHDRType() != HDR_TYPE_NONE && CMapLoadHelper::LumpSize( LUMP_LIGHTING_HDR ) > 0 ) { CMapLoadHelper mlh( LUMP_LIGHTING_HDR ); Mod_LoadLighting( mlh ); } else { CMapLoadHelper mlh( LUMP_LIGHTING ); Mod_LoadLighting( mlh ); } COM_TimestampedLog( " Mod_LoadPrimitives" ); Mod_LoadPrimitives(); COM_TimestampedLog( " Mod_LoadPrimVerts" ); Mod_LoadPrimVerts(); COM_TimestampedLog( " Mod_LoadPrimIndices" ); Mod_LoadPrimIndices(); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif // faces need to be loaded before vertnormals COM_TimestampedLog( " Mod_LoadFaces" ); Mod_LoadFaces(); COM_TimestampedLog( " Mod_LoadVertNormals" ); Mod_LoadVertNormals(); COM_TimestampedLog( " Mod_LoadVertNormalIndices" ); Mod_LoadVertNormalIndices(); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif // note leafs must load befor marksurfaces COM_TimestampedLog( " Mod_LoadLeafs" ); Mod_LoadLeafs(); COM_TimestampedLog( " Mod_LoadMarksurfaces" ); Mod_LoadMarksurfaces(); COM_TimestampedLog( " Mod_LoadNodes" ); Mod_LoadNodes(); COM_TimestampedLog( " Mod_LoadLeafWaterData" ); Mod_LoadLeafWaterData(); COM_TimestampedLog( " Mod_LoadCubemapSamples" ); Mod_LoadCubemapSamples(); #ifndef SWDS // UNDONE: Does the cmodel need worldlights? COM_TimestampedLog( " OverlayMgr()->LoadOverlays" ); OverlayMgr()->LoadOverlays(); #endif COM_TimestampedLog( " Mod_LoadLeafMinDistToWater" ); Mod_LoadLeafMinDistToWater(); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif COM_TimestampedLog( " LUMP_CLIPPORTALVERTS" ); Mod_LoadLump( mod, LUMP_CLIPPORTALVERTS, va( "%s [%s]", m_szLoadName, "clipportalverts" ), sizeof(m_worldBrushData.m_pClipPortalVerts[0]), (void**)&m_worldBrushData.m_pClipPortalVerts, &m_worldBrushData.m_nClipPortalVerts ); COM_TimestampedLog( " LUMP_AREAPORTALS" ); Mod_LoadLump( mod, LUMP_AREAPORTALS, va( "%s [%s]", m_szLoadName, "areaportals" ), sizeof(m_worldBrushData.m_pAreaPortals[0]), (void**)&m_worldBrushData.m_pAreaPortals, &m_worldBrushData.m_nAreaPortals ); COM_TimestampedLog( " LUMP_AREAS" ); Mod_LoadLump( mod, LUMP_AREAS, va( "%s [%s]", m_szLoadName, "areas" ), sizeof(m_worldBrushData.m_pAreas[0]), (void**)&m_worldBrushData.m_pAreas, &m_worldBrushData.m_nAreas ); COM_TimestampedLog( " Mod_LoadWorldlights" ); if ( g_pMaterialSystemHardwareConfig->GetHDRType() != HDR_TYPE_NONE && CMapLoadHelper::LumpSize( LUMP_WORLDLIGHTS_HDR ) > 0 ) { CMapLoadHelper mlh( LUMP_WORLDLIGHTS_HDR ); Mod_LoadWorldlights( mlh, true ); } else { CMapLoadHelper mlh( LUMP_WORLDLIGHTS ); Mod_LoadWorldlights( mlh, false ); } COM_TimestampedLog( " Mod_LoadGameLumpDict" ); Mod_LoadGameLumpDict(); // load the portal information // JAY: Disabled until we need this information. #if 0 Mod_LoadPortalVerts(); Mod_LoadClusterPortals(); Mod_LoadClusters(); Mod_LoadPortals(); #endif #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif COM_TimestampedLog( " Mod_LoadSubmodels" ); CUtlVector submodelList; Mod_LoadSubmodels( submodelList ); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif COM_TimestampedLog( " SetupSubModels" ); SetupSubModels( mod, submodelList ); COM_TimestampedLog( " RecomputeSurfaceFlags" ); RecomputeSurfaceFlags( mod ); #ifndef SWDS EngineVGui()->UpdateProgressBar(PROGRESS_LOADWORLDMODEL); #endif COM_TimestampedLog( " Map_VisClear" ); Map_VisClear(); COM_TimestampedLog( " Map_SetRenderInfoAllocated" ); Map_SetRenderInfoAllocated( false ); // Close map file, etc. CMapLoadHelper::Shutdown(); double elapsed = Plat_FloatTime() - startTime; COM_TimestampedLog( "Map_LoadModel: Finish - loading took %.4f seconds", elapsed ); } void CModelLoader::Map_UnloadCubemapSamples( model_t *mod ) { int i; for ( i=0 ; i < mod->brush.pShared->m_nCubemapSamples ; i++ ) { mcubemapsample_t *pSample = &mod->brush.pShared->m_pCubemapSamples[i]; pSample->pTexture->DecrementReferenceCount(); } } //----------------------------------------------------------------------------- // Recomputes surface flags //----------------------------------------------------------------------------- void CModelLoader::RecomputeSurfaceFlags( model_t *mod ) { for (int i=0 ; ibrush.pShared->numsubmodels ; i++) { model_t *pSubModel = &m_InlineModels[i]; // Compute whether this submodel uses material proxies or not Mod_ComputeBrushModelFlags( pSubModel ); // Mark if brush models are in water or not; we'll use this // for identity brushes. If the brush is not an identity brush, // then we'll not have to worry. if ( i != 0 ) { MarkBrushModelWaterSurfaces( mod, pSubModel->mins, pSubModel->maxs, pSubModel ); } } } //----------------------------------------------------------------------------- // Setup sub models //----------------------------------------------------------------------------- void CModelLoader::SetupSubModels( model_t *mod, CUtlVector &list ) { int i; m_InlineModels.SetCount( m_worldBrushData.numsubmodels ); for (i=0 ; ibrush.firstmodelsurface = bm->firstface; starmod->brush.nummodelsurfaces = bm->numfaces; starmod->brush.firstnode = bm->headnode; if ( starmod->brush.firstnode >= m_worldBrushData.numnodes ) { Sys_Error( "Inline model %i has bad firstnode", i ); } VectorCopy(bm->maxs, starmod->maxs); VectorCopy(bm->mins, starmod->mins); starmod->radius = bm->radius; if (i == 0) { *mod = *starmod; } else { starmod->strName.Format( "*%d", i ); starmod->fnHandle = g_pFileSystem->FindOrAddFileName( starmod->strName ); } } } //----------------------------------------------------------------------------- // Purpose: // Input : *mod - //----------------------------------------------------------------------------- void CModelLoader::Map_UnloadModel( model_t *mod ) { Assert( !( mod->nLoadFlags & FMODELLOADER_REFERENCEMASK ) ); mod->nLoadFlags &= ~FMODELLOADER_LOADED; #ifndef SWDS OverlayMgr()->UnloadOverlays(); #endif DeallocateLightingData( &m_worldBrushData ); #ifndef SWDS DispInfo_ReleaseMaterialSystemObjects( mod ); #endif Map_UnloadCubemapSamples( mod ); #ifndef SWDS // Free decals in displacements. R_DecalTerm( &m_worldBrushData, true ); #endif if ( m_worldBrushData.hDispInfos ) { DispInfo_DeleteArray( m_worldBrushData.hDispInfos ); m_worldBrushData.hDispInfos = NULL; } // Model loader loads world model materials, unload them here for( int texinfoID = 0; texinfoID < m_worldBrushData.numtexinfo; texinfoID++ ) { mtexinfo_t *pTexinfo = &m_worldBrushData.texinfo[texinfoID]; if ( pTexinfo ) { GL_UnloadMaterial( pTexinfo->material ); } } MaterialSystem_DestroySortinfo(); // Don't store any reference to it here ClearWorldModel(); Map_SetRenderInfoAllocated( false ); } //----------------------------------------------------------------------------- // Computes dimensions + frame count of a material //----------------------------------------------------------------------------- static void GetSpriteInfo( const char *pName, bool bIsVideo, int &nWidth, int &nHeight, int &nFrameCount ) { nFrameCount = 1; nWidth = nHeight = 1; // FIXME: The reason we are putting logic related to AVIs here, // logic which is duplicated in the client DLL related to loading sprites, // is that this code gets run on dedicated servers also. IMaterial *pMaterial = NULL; IVideoMaterial *pVideoMaterial = NULL; if ( bIsVideo && g_pVideo != NULL ) { pVideoMaterial = g_pVideo->CreateVideoMaterial( pName, pName, "GAME", VideoPlaybackFlags::DEFAULT_MATERIAL_OPTIONS, VideoSystem::DETERMINE_FROM_FILE_EXTENSION, false ); if ( pVideoMaterial ) { pVideoMaterial->GetVideoImageSize( &nWidth, &nHeight ); nFrameCount = pVideoMaterial->GetFrameCount(); pMaterial = pVideoMaterial->GetMaterial(); g_pVideo->DestroyVideoMaterial( pVideoMaterial ); } } else { pMaterial = GL_LoadMaterial( pName, TEXTURE_GROUP_OTHER ); if ( pMaterial ) { // Store off our source height, width, frame count nWidth = pMaterial->GetMappingWidth(); nHeight = pMaterial->GetMappingHeight(); nFrameCount = pMaterial->GetNumAnimationFrames(); } } if ( pMaterial == g_materialEmpty ) { DevMsg( "Missing sprite material %s\n", pName ); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::Sprite_LoadModel( model_t *mod ) { Assert( !( mod->nLoadFlags & FMODELLOADER_LOADED ) ); mod->nLoadFlags |= FMODELLOADER_LOADED; // The hunk data is not used on the server byte* pSprite = NULL; #ifndef SWDS if ( g_ClientDLL ) { int nSize = g_ClientDLL->GetSpriteSize(); if ( nSize ) { pSprite = ( byte * )new byte[ nSize ]; } } #endif mod->type = mod_sprite; mod->sprite.sprite = (CEngineSprite *)pSprite; // Fake the bounding box. We need it for PVS culling, and we don't // know the scale at which the sprite is going to be rendered at // when we load it mod->mins = mod->maxs = Vector(0,0,0); // Figure out the real load name.. char loadName[MAX_PATH]; bool bIsVideo; BuildSpriteLoadName( mod->strName, loadName, MAX_PATH, bIsVideo ); GetSpriteInfo( loadName, bIsVideo, mod->sprite.width, mod->sprite.height, mod->sprite.numframes ); #ifndef SWDS if ( g_ClientDLL && mod->sprite.sprite ) { g_ClientDLL->InitSprite( mod->sprite.sprite, loadName ); } #endif } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::Sprite_UnloadModel( model_t *mod ) { Assert( !( mod->nLoadFlags & FMODELLOADER_REFERENCEMASK ) ); mod->nLoadFlags &= ~FMODELLOADER_LOADED; char loadName[MAX_PATH]; bool bIsVideo; BuildSpriteLoadName( mod->strName, loadName, sizeof( loadName ), bIsVideo ); IMaterial *mat = materials->FindMaterial( loadName, TEXTURE_GROUP_OTHER ); if ( !IsErrorMaterial( mat ) ) { GL_UnloadMaterial( mat ); } #ifndef SWDS if ( g_ClientDLL && mod->sprite.sprite ) { g_ClientDLL->ShutdownSprite( mod->sprite.sprite ); } #endif delete[] (byte *)mod->sprite.sprite; mod->sprite.sprite = 0; mod->sprite.numframes = 0; } //----------------------------------------------------------------------------- // Purpose: Flush and reload models. Intended for use when lod changes. //----------------------------------------------------------------------------- void CModelLoader::Studio_ReloadModels( CModelLoader::ReloadType_t reloadType ) { #if !defined( SWDS ) if ( g_ClientDLL ) g_ClientDLL->InvalidateMdlCache(); #endif // SWDS if ( serverGameDLL ) serverGameDLL->InvalidateMdlCache(); // ensure decals have no stale references to invalid lods modelrender->RemoveAllDecalsFromAllModels(); // ensure static props have no stale references to invalid lods modelrender->ReleaseAllStaticPropColorData(); // Flush out the model cache // Don't flush vcollides since the vphysics system currently // has no way of indicating they refer to vcollides g_pMDLCache->Flush( (MDLCacheFlush_t) (MDLCACHE_FLUSH_ALL & (~MDLCACHE_FLUSH_VCOLLIDE)) ); // Load the critical pieces now // The model cache will re-populate as models render FOR_EACH_MAP_FAST( m_Models, i ) { model_t *pModel = m_Models[ i ].modelpointer; if ( !IsLoaded( pModel ) ) continue; if ( pModel->type != mod_studio ) continue; MDLCACHE_CRITICAL_SECTION_( g_pMDLCache ); // Get the studiohdr into the cache g_pMDLCache->GetStudioHdr( pModel->studio ); // force the collision to load g_pMDLCache->GetVCollide( pModel->studio ); } } struct modelsize_t { const char *pName; int size; }; class CModelsize_Less { public: bool Less( const modelsize_t& src1, const modelsize_t& src2, void *pCtx ) { return ( src1.size < src2.size ); } }; void CModelLoader::DumpVCollideStats() { int i; CUtlSortVector< modelsize_t, CModelsize_Less > list; for ( i = 0; (m_Models).IsUtlMap && i < (m_Models).MaxElement(); ++i ) if ( !(m_Models).IsValidIndex( i ) ) continue; else { model_t *pModel = m_Models[ i ].modelpointer; if ( pModel && pModel->type == mod_studio ) { int size = 0; bool loaded = g_pMDLCache->GetVCollideSize( pModel->studio, &size ); if ( loaded && size ) { modelsize_t elem; elem.pName = pModel->strName; elem.size = size; list.Insert( elem ); } } } for ( i = m_InlineModels.Count(); --i >= 0; ) { vcollide_t *pCollide = CM_VCollideForModel( i+1, &m_InlineModels[i] ); if ( pCollide ) { int size = 0; for ( int j = 0; j < pCollide->solidCount; j++ ) { size += physcollision->CollideSize( pCollide->solids[j] ); } size += pCollide->descSize; if ( size ) { modelsize_t elem; elem.pName = m_InlineModels[i].strName; elem.size = size; list.Insert( elem ); } } } Msg("VCollides loaded: %d\n", list.Count() ); int totalVCollideMemory = 0; for ( i = 0; i < list.Count(); i++ ) { Msg("%8d bytes:%s\n", list[i].size, list[i].pName); totalVCollideMemory += list[i].size; } int bboxCount, bboxSize; physcollision->GetBBoxCacheSize( &bboxSize, &bboxCount ); Msg( "%8d bytes BBox physics: %d boxes\n", bboxSize, bboxCount ); totalVCollideMemory += bboxSize; Msg( "--------------\n%8d bytes total VCollide Memory\n", totalVCollideMemory ); } //----------------------------------------------------------------------------- // Is the model loaded? //----------------------------------------------------------------------------- bool CModelLoader::IsLoaded( const model_t *mod ) { return (mod->nLoadFlags & FMODELLOADER_LOADED) != 0; } bool CModelLoader::LastLoadedMapHasHDRLighting(void) { return m_bMapHasHDRLighting; } //----------------------------------------------------------------------------- // Loads a studio model //----------------------------------------------------------------------------- void CModelLoader::Studio_LoadModel( model_t *pModel, bool bTouchAllData ) { if ( !mod_touchalldata.GetBool() ) { bTouchAllData = false; } // a preloaded model requires specific fixup behavior bool bPreLoaded = ( pModel->nLoadFlags & FMODELLOADER_LOADED_BY_PRELOAD ) != 0; bool bLoadPhysics = true; if ( pModel->nLoadFlags == FMODELLOADER_STATICPROP ) { // this is the first call in loading as a static prop (load bit not set), don't load physics yet // the next call in causes the physics to load bLoadPhysics = false; } // mark as loaded and fixed up pModel->nLoadFlags |= FMODELLOADER_LOADED; pModel->nLoadFlags &= ~FMODELLOADER_LOADED_BY_PRELOAD; if ( !bPreLoaded ) { pModel->studio = g_pMDLCache->FindMDL( pModel->strName ); g_pMDLCache->SetUserData( pModel->studio, pModel ); InitStudioModelState( pModel ); } // Get the studiohdr into the cache studiohdr_t *pStudioHdr = g_pMDLCache->GetStudioHdr( pModel->studio ); (void) pStudioHdr; // a preloaded model alrady has its physics data resident if ( bLoadPhysics && !bPreLoaded ) { // load the collision data now bool bSynchronous = bTouchAllData; double t1 = Plat_FloatTime(); g_pMDLCache->GetVCollideEx( pModel->studio, bSynchronous ); double t2 = Plat_FloatTime(); if ( bSynchronous ) { g_flAccumulatedModelLoadTimeVCollideSync += ( t2 - t1 ); } else { g_flAccumulatedModelLoadTimeVCollideAsync += ( t2 - t1 ); } } // this forces sync setup operations (materials/shaders) to build out now during load and not at runtime double t1 = Plat_FloatTime(); // should already be NULL, but better safe than sorry if ( pModel->ppMaterials ) { free( pModel->ppMaterials - 1 ); pModel->ppMaterials = NULL; } IMaterial *pMaterials[128]; int nMaterials = Mod_GetModelMaterials( pModel, ARRAYSIZE( pMaterials ), pMaterials ); if ( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ) { // Cache the material pointers so that we don't re-scan all the VMTs on dynamic unload COMPILE_TIME_ASSERT( sizeof( intptr_t ) == sizeof( IMaterial * ) ); IMaterial **pMem = (IMaterial**) malloc( (1 + nMaterials) * sizeof( IMaterial* ) ); *(intptr_t*)pMem = nMaterials; pModel->ppMaterials = pMem + 1; for ( int i=0; ippMaterials[i] = pMaterials[i]; } } if ( nMaterials ) { for ( int i=0; iIncrementReferenceCount(); } // track the refcount bump pModel->nLoadFlags |= FMODELLOADER_TOUCHED_MATERIALS; } double t2 = Plat_FloatTime(); g_flAccumulatedModelLoadTimeMaterialNamesOnly += ( t2 - t1 ); // a preloaded model must touch its children if ( bTouchAllData || bPreLoaded ) { Mod_TouchAllData( pModel, Host_GetServerCount() ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *mod - //----------------------------------------------------------------------------- void CModelLoader::Studio_UnloadModel( model_t *pModel ) { // Do not unload models that are still referenced by the dynamic system if ( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ) { return; } if ( pModel->nLoadFlags & FMODELLOADER_TOUCHED_MATERIALS ) { IMaterial *pMaterials[128]; int nMaterials = Mod_GetModelMaterials( pModel, ARRAYSIZE( pMaterials ), &pMaterials[0] ); for ( int j=0; jDecrementReferenceCount(); } pModel->nLoadFlags &= ~FMODELLOADER_TOUCHED_MATERIALS; } // leave these flags alone since we are going to return from alt-tab at some point. // Assert( !( mod->needload & FMODELLOADER_REFERENCEMASK ) ); pModel->nLoadFlags &= ~( FMODELLOADER_LOADED | FMODELLOADER_LOADED_BY_PRELOAD ); if ( IsX360() ) { // 360 doesn't need to keep the reference flags, but the PC does pModel->nLoadFlags &= ~FMODELLOADER_REFERENCEMASK; } #ifdef DBGFLAG_ASSERT int nRef = #endif g_pMDLCache->Release( pModel->studio ); // the refcounts must be as expected, or evil latent bugs will occur Assert( InEditMode() || ( nRef == 0 ) ); if ( pModel->ppMaterials ) { free( pModel->ppMaterials - 1 ); pModel->ppMaterials = NULL; } pModel->studio = MDLHANDLE_INVALID; pModel->type = mod_bad; } //----------------------------------------------------------------------------- // Purpose: // Input : *mod - //----------------------------------------------------------------------------- void CModelLoader::SetWorldModel( model_t *mod ) { Assert( mod ); m_pWorldModel = mod; // host_state.SetWorldModel( mod ); // garymcthack } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::ClearWorldModel( void ) { m_pWorldModel = NULL; memset( &m_worldBrushData, 0, sizeof(m_worldBrushData) ); m_InlineModels.Purge(); } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CModelLoader::IsWorldModelSet( void ) { return m_pWorldModel ? true : false; } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CModelLoader::GetNumWorldSubmodels( void ) { if ( !IsWorldModelSet() ) return 0; return m_worldBrushData.numsubmodels; } //----------------------------------------------------------------------------- // Purpose: Check cache or union data for info, reload studio model if needed // Input : *model - //----------------------------------------------------------------------------- void *CModelLoader::GetExtraData( model_t *model ) { if ( !model ) { return NULL; } switch ( model->type ) { case mod_sprite: { // sprites don't use the real cache yet if ( model->type == mod_sprite ) { // The sprite got unloaded. if ( !( FMODELLOADER_LOADED & model->nLoadFlags ) ) { return NULL; } return model->sprite.sprite; } } break; case mod_studio: return g_pMDLCache->GetStudioHdr( model->studio ); default: case mod_brush: // Should never happen Assert( 0 ); break; }; return NULL; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CModelLoader::Map_GetRenderInfoAllocated( void ) { return m_bMapRenderInfoLoaded; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CModelLoader::Map_SetRenderInfoAllocated( bool allocated ) { m_bMapRenderInfoLoaded = allocated; } //----------------------------------------------------------------------------- // Purpose: // Input : *mod - //----------------------------------------------------------------------------- void CModelLoader::Map_LoadDisplacements( model_t *pModel, bool bRestoring ) { if ( !pModel ) { Assert( false ); return; } Q_FileBase( pModel->strName, m_szLoadName, sizeof( m_szLoadName ) ); CMapLoadHelper::Init( pModel, m_szLoadName ); DispInfo_LoadDisplacements( pModel, bRestoring ); CMapLoadHelper::Shutdown(); } //----------------------------------------------------------------------------- // Purpose: List the model dictionary //----------------------------------------------------------------------------- void CModelLoader::Print( void ) { ConMsg( "Models:\n" ); FOR_EACH_MAP_FAST( m_Models, i ) { model_t *pModel = m_Models[i].modelpointer; if ( pModel->type == mod_studio || pModel->type == mod_bad ) { // studio models have ref counts // bad models are unloaded models which need to be listed int refCount = ( pModel->type == mod_studio ) ? g_pMDLCache->GetRef( pModel->studio ) : 0; ConMsg( "%4d: Flags:0x%8.8x RefCount:%2d %s\n", i, pModel->nLoadFlags, refCount, pModel->strName.String() ); } else { ConMsg( "%4d: Flags:0x%8.8x %s\n", i, pModel->nLoadFlags, pModel->strName.String() ); } } } //----------------------------------------------------------------------------- // Callback for UpdateOrCreate utility function - swaps a bsp. //----------------------------------------------------------------------------- #if defined( _X360 ) static bool BSPCreateCallback( const char *pSourceName, const char *pTargetName, const char *pPathID, void *pExtraData ) { // load the bsppack dll IBSPPack *iBSPPack = NULL; CSysModule *pmodule = g_pFullFileSystem->LoadModule( "bsppack" ); if ( pmodule ) { CreateInterfaceFn factory = Sys_GetFactory( pmodule ); if ( factory ) { iBSPPack = ( IBSPPack * )factory( IBSPPACK_VERSION_STRING, NULL ); } } if( !iBSPPack ) { Warning( "Can't load bsppack.dll - unable to swap bsp.\n" ); return false; } bool bOk = true; if ( !iBSPPack->SwapBSPFile( g_pFileSystem, pSourceName, pTargetName, IsX360(), ConvertVTFTo360Format, NULL, NULL ) ) { bOk = false; Warning( "Failed to create %s\n", pTargetName ); } Sys_UnloadModule( pmodule ); return bOk; } #endif //----------------------------------------------------------------------------- // Calls utility function to create .360 version of a file. //----------------------------------------------------------------------------- int CModelLoader::UpdateOrCreate( const char *pSourceName, char *pTargetName, int targetLen, bool bForce ) { #if defined( _X360 ) return ::UpdateOrCreate( pSourceName, pTargetName, targetLen, NULL, BSPCreateCallback, bForce ); #else return UOC_NOT_CREATED; #endif } //----------------------------------------------------------------------------- // Purpose: Determine if specified .bsp is valid // Input : *mapname - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CModelLoader::Map_IsValid( char const *pMapFile, bool bQuiet /* = false */ ) { static char s_szLastMapFile[MAX_PATH] = { 0 }; if ( !pMapFile || !pMapFile[0] ) { if ( !bQuiet ) { ConMsg( "CModelLoader::Map_IsValid: Empty mapname!!!\n" ); } return false; } char szMapFile[MAX_PATH] = { 0 }; V_strncpy( szMapFile, pMapFile, sizeof( szMapFile ) ); if ( IsX360() && !V_stricmp( szMapFile, s_szLastMapFile ) ) { // already been checked, no reason to do multiple i/o validations return true; } // Blacklist some characters // - Don't allow characters not allowed on all supported platforms for consistency // - Don't allow quotes or ;"' as defense-in-depth against script abuses (and, no real reason for mapnames to use these) const char *pBaseFileName = V_UnqualifiedFileName( pMapFile ); bool bIllegalChar = false; for (; pBaseFileName && *pBaseFileName; pBaseFileName++ ) { // ASCII control characters (codepoints <= 31) illegal in windows filenames if ( *pBaseFileName <= (char)31 ) bIllegalChar = true; switch ( *pBaseFileName ) { // Illegal in windows filenames, don't allow on any platform case '<': case '>': case ':': case '"': case '/': case '\\': case '|': case '?': case '*': bIllegalChar = true; // Additional special characters in source engine commands, defense-in-depth against things that might be // composing commands with map names (though they really shouldn't be) case ';': case '\'': bIllegalChar = true; default: break; } } if ( bIllegalChar ) { Assert( !"Map with illegal characters in filename" ); Warning( "Map with illegal characters in filename\n" ); return false; } FileHandle_t mapfile; if ( IsX360() ) { char szMapName360[MAX_PATH]; UpdateOrCreate( szMapFile, szMapName360, sizeof( szMapName360 ), false ); V_strcpy_safe( szMapFile, szMapName360 ); } mapfile = g_pFileSystem->OpenEx( szMapFile, "rb", IsX360() ? FSOPEN_NEVERINPACK : 0, "GAME" ); if ( mapfile != FILESYSTEM_INVALID_HANDLE ) { dheader_t header; memset( &header, 0, sizeof( header ) ); g_pFileSystem->Read( &header, sizeof( dheader_t ), mapfile ); g_pFileSystem->Close( mapfile ); if ( header.ident == IDBSPHEADER ) { if ( header.version >= MINBSPVERSION && header.version <= BSPVERSION ) { V_strncpy( s_szLastMapFile, szMapFile, sizeof( s_szLastMapFile ) ); return true; } else { if ( !bQuiet ) { Warning( "CModelLoader::Map_IsValid: Map '%s' bsp version %i, expecting %i\n", szMapFile, header.version, BSPVERSION ); } } } else { if ( !bQuiet ) { Warning( "CModelLoader::Map_IsValid: '%s' is not a valid BSP file\n", szMapFile ); } } } else { if ( !bQuiet ) { Warning( "CModelLoader::Map_IsValid: No such map '%s'\n", szMapFile ); } } // Get outta here if we are checking vidmemstats. if ( CommandLine()->CheckParm( "-dumpvidmemstats" ) ) { Cbuf_AddText( "quit\n" ); } return false; } model_t *CModelLoader::FindModelNoCreate( const char *pModelName ) { FileNameHandle_t fnHandle = g_pFileSystem->FindOrAddFileName( pModelName ); int i = m_Models.Find( fnHandle ); if ( i != m_Models.InvalidIndex() ) { return m_Models[i].modelpointer; } // not found return NULL; } modtype_t CModelLoader::GetTypeFromName( const char *pModelName ) { // HACK HACK, force sprites to correctly const char *pExt = V_GetFileExtension( pModelName ); if ( pExt ) { if ( !V_stricmp( pExt, "spr" ) || !V_stricmp( pExt, "vmt" ) ) { return mod_sprite; } else if ( !V_stricmp( pExt, "bsp" ) ) { return mod_brush; } else if ( !V_stricmp( pExt, "mdl" ) ) { return mod_studio; } else if ( g_pVideo != NULL && g_pVideo->LocateVideoSystemForPlayingFile( pModelName) != VideoSystem::NONE ) // video sprite { return mod_sprite; } } return mod_bad; } int CModelLoader::FindNext( int iIndex, model_t **ppModel ) { if ( iIndex == -1 && m_Models.Count() ) { iIndex = m_Models.FirstInorder(); } else if ( !m_Models.Count() || !m_Models.IsValidIndex( iIndex ) ) { *ppModel = NULL; return -1; } *ppModel = m_Models[iIndex].modelpointer; iIndex = m_Models.NextInorder( iIndex ); if ( iIndex == m_Models.InvalidIndex() ) { // end of list iIndex = -1; } return iIndex; } void CModelLoader::UnloadModel( model_t *pModel ) { switch ( pModel->type ) { case mod_brush: // Let it free data or call destructors.. Map_UnloadModel( pModel ); // Remove from file system g_pFileSystem->RemoveSearchPath( pModel->strName, "GAME" ); m_szActiveMapName[0] = '\0'; break; case mod_studio: Studio_UnloadModel( pModel ); break; case mod_sprite: Sprite_UnloadModel( pModel ); break; } } const char *CModelLoader::GetActiveMapName( void ) { return m_szActiveMapName; } model_t *CModelLoader::GetDynamicModel( const char *name, bool bClientOnly ) { if ( !name || !name[0] ) { name = "models/empty.mdl"; } Assert( V_strnicmp( name, "models/", 7 ) == 0 && V_strstr( name, ".mdl" ) != NULL ); model_t *pModel = FindModel( name ); Assert( pModel ); CDynamicModelInfo &dyn = m_DynamicModels[ m_DynamicModels.Insert( pModel ) ]; // Insert returns existing if key is already set if ( dyn.m_nLoadFlags == CDynamicModelInfo::INVALIDFLAG ) { dyn.m_nLoadFlags = 0; DynamicModelDebugMsg( "model %p [%s] registered\n", pModel, pModel->strName.String() ); } dyn.m_uLastTouchedMS_Div256 = Plat_MSTime() >> 8; return pModel; } void CModelLoader::UpdateDynamicModelLoadQueue() { if ( mod_dynamicloadpause.GetBool() ) return; static double s_LastDynamicLoadTime = 0.0; if ( mod_dynamicloadthrottle.GetFloat() > 0 && Plat_FloatTime() < s_LastDynamicLoadTime + mod_dynamicloadthrottle.GetFloat() ) return; if ( m_bDynamicLoadQueueHeadActive ) { Assert( m_DynamicModelLoadQueue.Count() >= 1 ); MaterialLock_t matLock = g_pMaterialSystem->Lock(); // ASDFADFASFASEGAafliejsfjaslaslgsaigas bool bComplete = g_pQueuedLoader->CompleteDynamicLoad(); g_pMaterialSystem->Unlock(matLock); if ( bComplete ) { model_t *pModel = m_DynamicModelLoadQueue[0]; m_DynamicModelLoadQueue.Remove(0); m_bDynamicLoadQueueHeadActive = false; Assert( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ); Assert( pModel->type == mod_bad || ( pModel->nLoadFlags & (FMODELLOADER_LOADED | FMODELLOADER_LOADED_BY_PRELOAD) ) ); (void) LoadModel( pModel, NULL ); Assert( pModel->type == mod_studio ); UtlHashHandle_t hDyn = m_DynamicModels.Find( pModel ); Assert( hDyn != m_DynamicModels.InvalidHandle() ); if ( hDyn != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[hDyn]; Assert( dyn.m_nLoadFlags & CDynamicModelInfo::QUEUED ); Assert( dyn.m_nLoadFlags & CDynamicModelInfo::LOADING ); dyn.m_nLoadFlags &= ~( CDynamicModelInfo::QUEUED | CDynamicModelInfo::LOADING ); g_pMDLCache->LockStudioHdr( pModel->studio ); dyn.m_nLoadFlags |= CDynamicModelInfo::CLIENTREADY; dyn.m_uLastTouchedMS_Div256 = Plat_MSTime() >> 8; FinishDynamicModelLoadIfReady( &dyn, pModel ); } // do the clean up after we're actually done // we keep some file cache around to make sure that LoadModel doesn't do blocking load g_pQueuedLoader->CleanupDynamicLoad(); s_LastDynamicLoadTime = Plat_FloatTime(); } } // If we're not working, and we have work to do, and the queued loader is open for business... if ( !m_bDynamicLoadQueueHeadActive && m_DynamicModelLoadQueue.Count() > 0 && g_pQueuedLoader->IsFinished() ) { model_t *pModel = m_DynamicModelLoadQueue[0]; UtlHashHandle_t hDyn = m_DynamicModels.Find( pModel ); Assert( hDyn != m_DynamicModels.InvalidHandle() ); if ( hDyn != m_DynamicModels.InvalidHandle() ) { m_bDynamicLoadQueueHeadActive = true; CDynamicModelInfo &dyn = m_DynamicModels[hDyn]; Assert( dyn.m_nLoadFlags & CDynamicModelInfo::QUEUED ); Assert( !(dyn.m_nLoadFlags & CDynamicModelInfo::LOADING) ); Assert( !(dyn.m_nLoadFlags & CDynamicModelInfo::CLIENTREADY) ); dyn.m_nLoadFlags |= CDynamicModelInfo::LOADING; // the queued loader is very ... particular about path names. it doesn't like leading "models/" const char* pName = pModel->strName; if ( V_strnicmp( pName, "models", 6 ) == 0 && ( pName[6] == '/' || pName[6] == '\\' ) ) { pName += 7; } MaterialLock_t matLock = g_pMaterialSystem->Lock(); g_pQueuedLoader->DynamicLoadMapResource( pName, NULL, NULL, NULL ); g_pMaterialSystem->Unlock(matLock); } else { m_DynamicModelLoadQueue.Remove(0); } } } void CModelLoader::FinishDynamicModelLoadIfReady( CDynamicModelInfo *pDyn, model_t *pModel ) { CDynamicModelInfo &dyn = *pDyn; if ( ( dyn.m_nLoadFlags & CDynamicModelInfo::CLIENTREADY ) ) { if ( !( dyn.m_nLoadFlags & CDynamicModelInfo::SERVERLOADING ) ) { // There ought to be a better way to plumb this through, but this should be ok... if ( sv.GetDynamicModelsTable() ) { int netidx = sv.GetDynamicModelsTable()->FindStringIndex( pModel->strName ); if ( netidx != INVALID_STRING_INDEX ) { char nIsLoaded = 1; sv.GetDynamicModelsTable()->SetStringUserData( netidx, 1, &nIsLoaded ); } } DynamicModelDebugMsg( "model %p [%s] loaded\n", pModel, pModel->strName.String() ); dyn.m_nLoadFlags |= CDynamicModelInfo::ALLREADY; // Reverse order; UnregisterModelLoadCallback does a FastRemove that swaps from back for ( int i = dyn.m_Callbacks.Count()-1; i >= 0; --i ) { uintptr_t callbackID = dyn.m_Callbacks[ i ]; bool bClientOnly = (bool)(callbackID & 1); IModelLoadCallback* pCallback = ( IModelLoadCallback* )( callbackID & ~1 ); UnregisterModelLoadCallback( pModel, bClientOnly, pCallback ); pCallback->OnModelLoadComplete( pModel ); } } else { // Reverse order; UnregisterModelLoadCallback does a FastRemove that swaps from back for ( int i = dyn.m_Callbacks.Count()-1; i >= 0; --i ) { uintptr_t callbackID = dyn.m_Callbacks[ i ]; bool bClientOnly = (bool)(callbackID & 1); IModelLoadCallback* pCallback = ( IModelLoadCallback* )( callbackID & ~1 ); if ( bClientOnly ) { UnregisterModelLoadCallback( pModel, true, pCallback ); pCallback->OnModelLoadComplete( pModel ); } } } } } bool CModelLoader::RegisterModelLoadCallback( model_t *pModel, bool bClientOnly, IModelLoadCallback *pCallback, bool bCallImmediatelyIfLoaded ) { UtlHashHandle_t hDyn = m_DynamicModels.Find( pModel ); Assert( hDyn != m_DynamicModels.InvalidHandle() ); if ( hDyn == m_DynamicModels.InvalidHandle() ) return false; Assert( ((uintptr_t)pCallback & 1) == 0 ); uintptr_t callbackID = (uintptr_t)pCallback | (uintptr_t)bClientOnly; int readyFlag = bClientOnly ? CDynamicModelInfo::CLIENTREADY : CDynamicModelInfo::ALLREADY; CDynamicModelInfo &dyn = m_DynamicModels[ hDyn ]; AssertMsg( dyn.m_iRefCount > 0, "RegisterModelLoadCallback requires non-zero model refcount" ); if ( dyn.m_nLoadFlags & readyFlag ) { if ( !bCallImmediatelyIfLoaded ) return false; pCallback->OnModelLoadComplete( pModel ); } else { if ( !dyn.m_Callbacks.HasElement( callbackID ) ) { dyn.m_Callbacks.AddToTail( callbackID ); // Set registration count for callback pointer m_RegisteredDynamicCallbacks[ m_RegisteredDynamicCallbacks.Insert( callbackID, 0 ) ]++; } } return true; } bool CModelLoader::IsDynamicModelLoading( model_t *pModel, bool bClientOnly ) { Assert( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ); UtlHashHandle_t hDyn = m_DynamicModels.Find( pModel ); Assert( hDyn != m_DynamicModels.InvalidHandle() ); if ( hDyn != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[ hDyn ]; AssertMsg( dyn.m_iRefCount > 0, "dynamic model state cannot be queried with zero refcount" ); if ( dyn.m_iRefCount > 0 ) { int readyFlag = bClientOnly ? CDynamicModelInfo::CLIENTREADY : CDynamicModelInfo::ALLREADY; return !( dyn.m_nLoadFlags & readyFlag ); } } return false; } void CModelLoader::AddRefDynamicModel( model_t *pModel, bool bClientSideRef ) { extern IVModelInfo* modelinfo; UtlHashHandle_t hDyn = m_DynamicModels.Insert( pModel ); CDynamicModelInfo& dyn = m_DynamicModels[ hDyn ]; dyn.m_iRefCount++; dyn.m_iClientRefCount += ( bClientSideRef ? 1 : 0 ); Assert( dyn.m_iRefCount > 0 ); DynamicModelDebugMsg( "model %p [%s] addref %d (%d)\n", pModel, pModel->strName.String(), dyn.m_iRefCount, dyn.m_iClientRefCount ); if ( !( dyn.m_nLoadFlags & ( CDynamicModelInfo::QUEUED | CDynamicModelInfo::CLIENTREADY ) ) ) { QueueDynamicModelLoad( &dyn, pModel ); // Try to kick it off asap if we aren't already busy. if ( !m_bDynamicLoadQueueHeadActive ) { UpdateDynamicModelLoadQueue(); } } } void CModelLoader::ReleaseDynamicModel( model_t *pModel, bool bClientSideRef ) { Assert( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ); UtlHashHandle_t hDyn = m_DynamicModels.Find( pModel ); Assert( hDyn != m_DynamicModels.InvalidHandle() ); if ( hDyn != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[ hDyn ]; Assert( dyn.m_iRefCount > 0 ); if ( dyn.m_iRefCount > 0 ) { DynamicModelDebugMsg( "model %p [%s] release %d (%dc)\n", pModel, pModel->strName.String(), dyn.m_iRefCount, dyn.m_iClientRefCount ); dyn.m_iRefCount--; dyn.m_iClientRefCount -= ( bClientSideRef ? 1 : 0 ); Assert( dyn.m_iClientRefCount >= 0 ); if ( dyn.m_iClientRefCount < 0 ) dyn.m_iClientRefCount = 0; dyn.m_uLastTouchedMS_Div256 = Plat_MSTime() >> 8; } } } void CModelLoader::UnregisterModelLoadCallback( model_t *pModel, bool bClientOnly, IModelLoadCallback *pCallback ) { Assert( ((uintptr_t)pCallback & 1) == 0 ); uintptr_t callbackID = (uintptr_t)pCallback | (uintptr_t)bClientOnly; if ( int *pCallbackRegistrationCount = m_RegisteredDynamicCallbacks.GetPtr( callbackID ) ) { if ( pModel ) { UtlHashHandle_t i = m_DynamicModels.Find( pModel ); if ( i != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[ i ]; if ( dyn.m_Callbacks.FindAndFastRemove( callbackID ) ) { if ( dyn.m_Callbacks.Count() == 0 ) { dyn.m_Callbacks.Purge(); } if ( --(*pCallbackRegistrationCount) == 0 ) { m_RegisteredDynamicCallbacks.Remove( callbackID ); return; } } } } else { for ( UtlHashHandle_t i = m_DynamicModels.FirstHandle(); i != m_DynamicModels.InvalidHandle(); i = m_DynamicModels.NextHandle(i) ) { CDynamicModelInfo &dyn = m_DynamicModels[ i ]; if ( dyn.m_Callbacks.FindAndFastRemove( callbackID ) ) { if ( dyn.m_Callbacks.Count() == 0 ) { dyn.m_Callbacks.Purge(); } if ( --(*pCallbackRegistrationCount) == 0 ) { m_RegisteredDynamicCallbacks.Remove( callbackID ); return; } } } } } } void CModelLoader::QueueDynamicModelLoad( CDynamicModelInfo *dyn, model_t *mod ) { Assert( !(dyn->m_nLoadFlags & CDynamicModelInfo::QUEUED) ); // Client-side entities have priority over server-side entities // because they are more likely to be used in UI elements. --henryg if ( dyn->m_iClientRefCount > 0 && m_DynamicModelLoadQueue.Count() > 1 ) { m_DynamicModelLoadQueue.InsertAfter( 0, mod ); } else { m_DynamicModelLoadQueue.AddToTail( mod ); } dyn->m_nLoadFlags |= CDynamicModelInfo::QUEUED; mod->nLoadFlags |= ( dyn->m_iClientRefCount > 0 ? FMODELLOADER_DYNCLIENT : FMODELLOADER_DYNSERVER ); } bool CModelLoader::CancelDynamicModelLoad( CDynamicModelInfo *dyn, model_t *mod ) { int i = m_DynamicModelLoadQueue.Find( mod ); Assert( (i < 0) == !(dyn->m_nLoadFlags & CDynamicModelInfo::QUEUED) ); if ( i >= 0 ) { if ( i == 0 && m_bDynamicLoadQueueHeadActive ) { Assert( dyn->m_nLoadFlags & CDynamicModelInfo::LOADING ); // can't remove head of queue return false; } else { Assert( dyn->m_nLoadFlags & CDynamicModelInfo::QUEUED ); Assert( !(dyn->m_nLoadFlags & CDynamicModelInfo::LOADING) ); m_DynamicModelLoadQueue.Remove( i ); dyn->m_nLoadFlags &= ~CDynamicModelInfo::QUEUED; mod->nLoadFlags &= ~FMODELLOADER_DYNAMIC; return true; } } return false; } void CModelLoader::InternalUpdateDynamicModels( bool bIgnoreTime ) { const uint now = Plat_MSTime(); const uint delay = bIgnoreTime ? 0 : (int)( clamp( mod_dynamicunloadtime.GetFloat(), 1.f, 600.f ) * 1000 ); UpdateDynamicModelLoadQueue(); #ifdef _DEBUG extern CNetworkStringTableContainer *networkStringTableContainerServer; bool bPrevStringTableLockState = networkStringTableContainerServer->Lock( false ); #endif // Scan for models to unload. TODO: accelerate with a "models to potentially unload" list? UtlHashHandle_t i = m_DynamicModels.FirstHandle(); while ( i != m_DynamicModels.InvalidHandle() ) { model_t *pModel = m_DynamicModels.Key( i ); CDynamicModelInfo& dyn = m_DynamicModels[ i ]; // UNLOAD THIS MODEL if zero refcount and not currently loading, and either timed out or never loaded if ( dyn.m_iRefCount <= 0 && !(dyn.m_nLoadFlags & CDynamicModelInfo::LOADING) && ( ( now - (dyn.m_uLastTouchedMS_Div256 << 8) ) >= delay || !( dyn.m_nLoadFlags & CDynamicModelInfo::CLIENTREADY ) ) ) { // Remove from load queue if ( dyn.m_nLoadFlags & CDynamicModelInfo::QUEUED ) { if ( !CancelDynamicModelLoad( &dyn, pModel ) ) { // Couldn't remove from queue, advance to next entry and do not remove i = m_DynamicModels.NextHandle(i); continue; } } // Unlock studiohdr_t if ( dyn.m_nLoadFlags & CDynamicModelInfo::CLIENTREADY ) { g_pMDLCache->UnlockStudioHdr( pModel->studio ); } // There ought to be a better way to plumb this through, but this should be ok... if ( sv.GetDynamicModelsTable() ) { int netidx = sv.GetDynamicModelsTable()->FindStringIndex( pModel->strName ); if ( netidx != INVALID_STRING_INDEX ) { char nIsLoaded = 0; sv.GetDynamicModelsTable()->SetStringUserData( netidx, 1, &nIsLoaded ); } } if ( pModel->nLoadFlags & FMODELLOADER_DYNAMIC ) { pModel->nLoadFlags &= ~FMODELLOADER_DYNAMIC; // Actually unload the model if all system references are gone if ( pModel->nLoadFlags & FMODELLOADER_REFERENCEMASK ) { DynamicModelDebugMsg( "model %p [%s] unload - deferred: non-dynamic reference\n", pModel, pModel->strName.String() ); } else { DynamicModelDebugMsg( "model %p [%s] unload\n", pModel, pModel->strName.String() ); Studio_UnloadModel( pModel ); if ( mod_dynamicunloadtextures.GetBool() ) { materials->UncacheUnusedMaterials( false ); } } } // Remove from table, advance to next entry i = m_DynamicModels.RemoveAndAdvance(i); continue; } // Advance to next entry in table i = m_DynamicModels.NextHandle(i); } #ifdef _DEBUG networkStringTableContainerServer->Lock( bPrevStringTableLockState ); #endif } void CModelLoader::Client_OnServerModelStateChanged( model_t *pModel, bool bServerLoaded ) { #ifndef SWDS // Listen server don't distinguish between server and client ready, never use SERVERLOADING flag if ( sv.IsActive() ) return; UtlHashHandle_t i = m_DynamicModels.Find( pModel ); if ( i != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[i]; if ( !bServerLoaded ) { if ( dyn.m_nLoadFlags & CDynamicModelInfo::ALLREADY ) DynamicModelDebugMsg( "dynamic model [%s] loaded on client but not server! is this bad? unknown...", pModel->strName.String() ); dyn.m_nLoadFlags &= ~CDynamicModelInfo::ALLREADY; dyn.m_nLoadFlags |= CDynamicModelInfo::SERVERLOADING; } else { dyn.m_nLoadFlags &= ~CDynamicModelInfo::SERVERLOADING; FinishDynamicModelLoadIfReady( &dyn, pModel ); } } #endif } void CModelLoader::ForceUnloadNonClientDynamicModels() { UtlHashHandle_t i = m_DynamicModels.FirstHandle(); while ( i != m_DynamicModels.InvalidHandle() ) { CDynamicModelInfo &dyn = m_DynamicModels[i]; dyn.m_iRefCount = dyn.m_iClientRefCount; i = m_DynamicModels.NextHandle( i ); } // Flush everything InternalUpdateDynamicModels( true ); } // reconstruct the ambient lighting for a leaf at the given position in worldspace void Mod_LeafAmbientColorAtPos( Vector *pOut, const Vector &pos, int leafIndex ) { for ( int i = 0; i < 6; i++ ) { pOut[i].Init(); } mleafambientindex_t *pAmbient = &host_state.worldbrush->m_pLeafAmbient[leafIndex]; if ( !pAmbient->ambientSampleCount && pAmbient->firstAmbientSample ) { // this leaf references another leaf, move there (this leaf is a solid leaf so it borrows samples from a neighbor) leafIndex = pAmbient->firstAmbientSample; pAmbient = &host_state.worldbrush->m_pLeafAmbient[leafIndex]; } int count = pAmbient->ambientSampleCount; if ( count > 0 ) { int start = host_state.worldbrush->m_pLeafAmbient[leafIndex].firstAmbientSample; mleafambientlighting_t *pSamples = host_state.worldbrush->m_pAmbientSamples + start; mleaf_t *pLeaf = &host_state.worldbrush->leafs[leafIndex]; float totalFactor = 0; for ( int i = 0; i < count; i++ ) { // do an inverse squared distance weighted average of the samples to reconstruct // the original function // the sample positions are packed as leaf bounds fractions, compute Vector samplePos = pLeaf->m_vecCenter - pLeaf->m_vecHalfDiagonal; samplePos.x += float(pSamples[i].x) * pLeaf->m_vecHalfDiagonal.x * (2.0f / 255.0f); samplePos.y += float(pSamples[i].y) * pLeaf->m_vecHalfDiagonal.y * (2.0f / 255.0f); samplePos.z += float(pSamples[i].z) * pLeaf->m_vecHalfDiagonal.z * (2.0f / 255.0f); float dist = (samplePos - pos).LengthSqr(); float factor = 1.0f / (dist + 1.0f); totalFactor += factor; for ( int j = 0; j < 6; j++ ) { Vector v; ColorRGBExp32ToVector( pSamples[i].cube.m_Color[j], v ); pOut[j] += v * factor; } } for ( int i = 0; i < 6; i++ ) { pOut[i] *= (1.0f / totalFactor); } } } #if defined( WIN32 ) int ComputeSize( studiohwdata_t *hwData, int *numVerts, int *pTriCount, bool onlyTopLod = false ) { unsigned size = 0; Assert(hwData && numVerts); int max_lod = (onlyTopLod ? 1 : hwData->m_NumLODs); *pTriCount = 0; for ( int i=0; i < max_lod; i++ ) { studioloddata_t *pLOD = &hwData->m_pLODs[i]; for ( int j = 0; j < hwData->m_NumStudioMeshes; j++ ) { studiomeshdata_t *pMeshData = &pLOD->m_pMeshData[j]; for ( int k = 0; k < pMeshData->m_NumGroup; k++ ) { studiomeshgroup_t *pMeshGroup = &pMeshData->m_pMeshGroup[k]; IMesh* mesh = pMeshGroup->m_pMesh; size += mesh->ComputeMemoryUsed(); // Size of VB and IB size += 2*pMeshGroup->m_NumVertices; // Size of m_pGroupIndexToMeshIndex[] array *numVerts += mesh->VertexCount(); Assert( mesh->VertexCount() == pMeshGroup->m_NumVertices ); for ( int l = 0; l < pMeshGroup->m_NumStrips; ++l ) { OptimizedModel::StripHeader_t *pStripData = &pMeshGroup->m_pStripData[l]; *pTriCount += pStripData->numIndices / 3; } } } } return size; } // APSFIXME: needs to only do models that are resident, sizes might be wrong, i.e lacking compressed vert state? CON_COMMAND_F( model_list, "Dump model list to file", FCVAR_CHEAT | FCVAR_DONTRECORD ) { // don't run this on dedicated servers if ( sv.IsDedicated() ) return; if ( g_pFileSystem ) { FileHandle_t fileHandle = g_pFileSystem->Open( "model_list.csv", "wt", "GAME" ); if ( fileHandle ) { const char *substring = NULL; if ( args.ArgC() > 1 ) { substring = args[1]; } g_pFileSystem->FPrintf( fileHandle, "name,dataSize,numVerts,nTriCount,dataSizeLod0,numVertsLod0,nTriCountLod0,numBones,numParts,numLODs,numMeshes\n" ); for ( int i = 0; i < modelloader->GetCount(); i++ ) { const char* name = "Unknown"; int dataSizeLod0 = 0; int dataSize = 0; int numParts = 0; int numBones = 0; int numVertsLod0 = 0; int numVerts = 0; int numLODs = 0; int numMeshes = 0; int nTriCount = 0; int nTriCountLod0 = 0; model_t* model = modelloader->GetModelForIndex( i ); if ( model ) { // other model types are not interesting if ( model->type != mod_studio ) continue; name = model->strName; if ( substring && substring[0] ) { if ( Q_stristr( name, substring ) == NULL ) continue; } studiohwdata_t *hwData = g_pMDLCache->GetHardwareData( model->studio ); if ( hwData ) { numMeshes = hwData->m_NumStudioMeshes; numLODs = hwData->m_NumLODs; dataSize = ComputeSize( hwData, &numVerts, &nTriCount, false ); // Size of vertex data dataSizeLod0 = ComputeSize( hwData, &numVertsLod0, &nTriCountLod0, true ); } studiohdr_t *pStudioHdr = (studiohdr_t *)modelloader->GetExtraData( model ); dataSize += pStudioHdr->length; // Size of MDL file numBones = pStudioHdr->numbones; numParts = pStudioHdr->numbodyparts; g_pFileSystem->FPrintf( fileHandle, "%s,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d\n", name, dataSize, numVerts, nTriCount, dataSizeLod0, numVertsLod0, nTriCountLod0, numBones, numParts, numLODs, numMeshes ); } } g_pFileSystem->Close( fileHandle ); Msg( "Created \"model_list.csv\" in the game folder.\n" ); } } } #endif // WIN32 CON_COMMAND_F( mod_dynamicmodeldebug, "debug spew for dynamic model loading", FCVAR_HIDDEN | FCVAR_DONTRECORD ) { ((CModelLoader*)modelloader)->DebugPrintDynamicModels(); } #include "server.h" #ifndef SWDS #include "client.h" #endif void CModelLoader::DebugPrintDynamicModels() { Msg( "network table (server):\n" ); if ( sv.GetDynamicModelsTable() ) { for ( int i = 0; i < sv.GetDynamicModelsTable()->GetNumStrings(); ++i ) { int dummy = 0; char* data = (char*) sv.GetDynamicModelsTable()->GetStringUserData( i, &dummy ); bool bLoadedOnServer = !(data && dummy && data[0] == 0); Msg( "%3i: %c %s\n", i, bLoadedOnServer ? '*' : ' ', sv.GetDynamicModelsTable()->GetString(i) ); } } #ifndef SWDS Msg( "\nnetwork table (client):\n" ); if ( cl.m_pDynamicModelsTable ) { for ( int i = 0; i < cl.m_pDynamicModelsTable->GetNumStrings(); ++i ) { int dummy = 0; char* data = (char*) cl.m_pDynamicModelsTable->GetStringUserData( i, &dummy ); bool bLoadedOnServer = !(data && dummy && data[0] == 0); Msg( "%3i: %c %s\n", i, bLoadedOnServer ? '*' : ' ', cl.m_pDynamicModelsTable->GetString(i) ); } } #endif extern IVModelInfo *modelinfo; extern IVModelInfoClient *modelinfoclient; Msg( "\ndynamic models:\n" ); for ( UtlHashHandle_t h = m_DynamicModels.FirstHandle(); h != m_DynamicModels.InvalidHandle(); h = m_DynamicModels.NextHandle(h) ) { CDynamicModelInfo &dyn = m_DynamicModels[h]; int idx = modelinfo->GetModelIndex( m_DynamicModels.Key(h)->strName ); #ifndef SWDS if ( idx == -1 ) idx = modelinfoclient->GetModelIndex( m_DynamicModels.Key(h)->strName ); #endif Msg( "%d (%d%c): %s [ref: %d (%dc)] %s%s%s%s\n", idx, ((-2 - idx) >> 1), (idx & 1) ? 'c' : 's', m_DynamicModels.Key(h)->strName.String(), dyn.m_iRefCount, dyn.m_iClientRefCount, (dyn.m_nLoadFlags & CDynamicModelInfo::QUEUED) ? " QUEUED" : "", (dyn.m_nLoadFlags & CDynamicModelInfo::LOADING) ? " LOADING" : "", (dyn.m_nLoadFlags & CDynamicModelInfo::CLIENTREADY) ? " CLIENTREADY" : "", (dyn.m_nLoadFlags & CDynamicModelInfo::ALLREADY) ? " ALLREADY" : "" ); } }