//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #include "cbase.h" #include "networkstringtable_clientdll.h" #include "dt_utlvector_recv.h" #include "choreoevent.h" #include "choreoactor.h" #include "choreochannel.h" #include "filesystem.h" #include "ichoreoeventcallback.h" #include "scenefilecache/ISceneFileCache.h" #include "materialsystem/imaterialsystemhardwareconfig.h" #include "tier2/tier2.h" #include "hud_closecaption.h" #include "tier0/icommandline.h" #include "c_sceneentity.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" //----------------------------------------------------------------------------- // Purpose: Decodes animtime and notes when it changes // Input : *pStruct - ( C_BaseEntity * ) used to flag animtime is changine // *pVarData - // *pIn - // objectID - //----------------------------------------------------------------------------- void RecvProxy_ForcedClientTime( const CRecvProxyData *pData, void *pStruct, void *pOut ) { C_SceneEntity *pScene = reinterpret_cast< C_SceneEntity * >( pStruct ); *(float *)pOut = pData->m_Value.m_Float; pScene->OnResetClientTime(); } #if defined( CSceneEntity ) #undef CSceneEntity #endif IMPLEMENT_CLIENTCLASS_DT(C_SceneEntity, DT_SceneEntity, CSceneEntity) RecvPropInt(RECVINFO(m_nSceneStringIndex)), RecvPropBool(RECVINFO(m_bIsPlayingBack)), RecvPropBool(RECVINFO(m_bPaused)), RecvPropBool(RECVINFO(m_bMultiplayer)), RecvPropFloat(RECVINFO(m_flForceClientTime), 0, RecvProxy_ForcedClientTime ), RecvPropUtlVector( RECVINFO_UTLVECTOR( m_hActorList ), MAX_ACTORS_IN_SCENE, RecvPropEHandle(NULL, 0, 0)), END_RECV_TABLE() C_SceneEntity::C_SceneEntity( void ) { m_pScene = NULL; m_bMultiplayer = false; m_hOwner = NULL; m_bClientOnly = false; } C_SceneEntity::~C_SceneEntity( void ) { UnloadScene(); } void C_SceneEntity::OnResetClientTime() { // In TF2 we ignore this as the scene is played entirely client-side. #ifndef TF_CLIENT_DLL m_flCurrentTime = m_flForceClientTime; #endif } char const *C_SceneEntity::GetSceneFileName() { return g_pStringTableClientSideChoreoScenes->GetString( m_nSceneStringIndex ); } ConVar mp_usehwmvcds( "mp_usehwmvcds", "0", NULL, "Enable the use of the hw morph vcd(s). (-1 = never, 1 = always, 0 = based upon GPU)" ); // -1 = never, 0 = if hasfastvertextextures, 1 = always bool UseHWMorphVCDs() { // if ( mp_usehwmvcds.GetInt() == 0 ) // return g_pMaterialSystemHardwareConfig->HasFastVertexTextures(); // return mp_usehwmvcds.GetInt() > 0; return false; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool C_SceneEntity::GetHWMorphSceneFileName( const char *pFilename, char *pHWMFilename ) { // Are we even using hardware morph? if ( !UseHWMorphVCDs() ) return false; // Multi-player only! if ( !m_bMultiplayer ) return false; // Do we have a valid filename? if ( !( pFilename && pFilename[0] ) ) return false; // Check to see if we already have an player/hwm/* filename. if ( ( V_strstr( pFilename, "/high" ) != NULL ) || ( V_strstr( pFilename, "\\high" ) != NULL ) ) { V_strcpy( pHWMFilename, pFilename ); return true; } // Find the hardware morph scene name and pass that along as well. char szScene[MAX_PATH]; V_strcpy_safe( szScene, pFilename ); char szSceneHWM[MAX_PATH]; szSceneHWM[0] = '\0'; char *pszToken = strtok( szScene, "/\\" ); while ( pszToken != NULL ) { if ( !V_stricmp( pszToken, "low" ) ) { V_strcat( szSceneHWM, "high", sizeof( szSceneHWM ) ); } else { V_strcat( szSceneHWM, pszToken, sizeof( szSceneHWM ) ); } pszToken = strtok( NULL, "/\\" ); if ( pszToken != NULL ) { V_strcat( szSceneHWM, "\\", sizeof( szSceneHWM ) ); } } V_strcpy( pHWMFilename, szSceneHWM ); return true; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::ResetActorFlexesForScene() { int nActorCount = m_pScene->GetNumActors(); for( int iActor = 0; iActor < nActorCount; ++iActor ) { CChoreoActor *pChoreoActor = m_pScene->GetActor( iActor ); if ( !pChoreoActor ) continue; C_BaseFlex *pFlexActor = FindNamedActor( pChoreoActor ); if ( !pFlexActor ) continue; CStudioHdr *pStudioHdr = pFlexActor->GetModelPtr(); if ( !pStudioHdr ) continue; if ( pStudioHdr->numflexdesc() == 0 ) continue; // Reset the flex weights to their starting position. LocalFlexController_t iController; for ( iController = LocalFlexController_t(0); iController < pStudioHdr->numflexcontrollers(); ++iController ) { pFlexActor->SetFlexWeight( iController, 0.0f ); } // Reset the prediction interpolation values. pFlexActor->m_iv_flexWeight.Reset(); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::StopClientOnlyScene() { if ( m_pScene ) { m_pScene->ResetSimulation(); if ( m_hOwner.Get() ) { m_hOwner->RemoveChoreoScene( m_pScene ); } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::SetupClientOnlyScene( const char *pszFilename, C_BaseFlex *pOwner /* = NULL */, bool bMultiplayer /* = false */ ) { m_bIsPlayingBack = true; m_bMultiplayer = bMultiplayer; m_hOwner = pOwner; m_bClientOnly = true; char szFilename[128]; Assert( V_strlen( pszFilename ) < 128 ); V_strcpy_safe( szFilename, pszFilename ); char szSceneHWM[128]; if ( GetHWMorphSceneFileName( szFilename, szSceneHWM ) ) { V_strcpy_safe( szFilename, szSceneHWM ); } Assert( szFilename[ 0 ] ); if ( szFilename[ 0 ] ) { LoadSceneFromFile( szFilename ); if ( !HushAsserts() ) { Assert( m_pScene ); } // Should handle gestures and sequences client side. if ( m_bMultiplayer ) { if ( m_pScene ) { int types[6]; types[0] = CChoreoEvent::FLEXANIMATION; types[1] = CChoreoEvent::EXPRESSION; types[2] = CChoreoEvent::GESTURE; types[3] = CChoreoEvent::SEQUENCE; types[4] = CChoreoEvent::SPEAK; types[5] = CChoreoEvent::LOOP; m_pScene->RemoveEventsExceptTypes( types, 6 ); } PrefetchAnimBlocks( m_pScene ); } else { if ( m_pScene ) { int types[ 2 ]; types[ 0 ] = CChoreoEvent::FLEXANIMATION; types[ 1 ] = CChoreoEvent::EXPRESSION; m_pScene->RemoveEventsExceptTypes( types, 2 ); } } SetNextClientThink( CLIENT_THINK_ALWAYS ); } if ( m_hOwner.Get() ) { if ( !HushAsserts() ) { Assert( m_pScene ); } if ( m_pScene ) { ClearSceneEvents( m_pScene, false ); if ( m_bIsPlayingBack ) { m_pScene->ResetSimulation(); m_hOwner->StartChoreoScene( m_pScene ); } else { m_pScene->ResetSimulation(); m_hOwner->RemoveChoreoScene( m_pScene ); } // Reset the flex weights when we start a new scene. This is normally done on the player model, but since // we don't have a player here yet - we need to do this! ResetActorFlexesForScene(); } } else { for( int i = 0; i < m_hActorList.Count() ; ++i ) { C_BaseFlex *actor = m_hActorList[ i ].Get(); if ( !actor ) continue; Assert( m_pScene ); if ( m_pScene ) { ClearSceneEvents( m_pScene, false ); if ( m_bIsPlayingBack ) { m_pScene->ResetSimulation(); actor->StartChoreoScene( m_pScene ); } else { m_pScene->ResetSimulation(); actor->RemoveChoreoScene( m_pScene ); } } } } } void C_SceneEntity::PostDataUpdate( DataUpdateType_t updateType ) { BaseClass::PostDataUpdate( updateType ); char const *str = GetSceneFileName(); char szFilename[MAX_PATH]; if ( str ) { Assert( V_strlen( str ) < MAX_PATH ); V_strcpy_safe( szFilename, str ); } else { szFilename[0] = '\0'; } char szSceneHWM[MAX_PATH]; if ( GetHWMorphSceneFileName( szFilename, szSceneHWM ) ) { V_strcpy_safe( szFilename, szSceneHWM ); } if ( updateType == DATA_UPDATE_CREATED ) { Assert( szFilename[ 0 ] ); if ( szFilename[ 0 ] ) { LoadSceneFromFile( szFilename ); // Kill everything except flex events Assert( m_pScene ); // Should handle gestures and sequences clientside. if ( m_bMultiplayer ) { if ( m_pScene ) { int types[6]; types[0] = CChoreoEvent::FLEXANIMATION; types[1] = CChoreoEvent::EXPRESSION; types[2] = CChoreoEvent::GESTURE; types[3] = CChoreoEvent::SEQUENCE; types[4] = CChoreoEvent::SPEAK; types[5] = CChoreoEvent::LOOP; m_pScene->RemoveEventsExceptTypes( types, 6 ); } PrefetchAnimBlocks( m_pScene ); } else { if ( m_pScene ) { int types[ 2 ]; types[ 0 ] = CChoreoEvent::FLEXANIMATION; types[ 1 ] = CChoreoEvent::EXPRESSION; m_pScene->RemoveEventsExceptTypes( types, 2 ); } } SetNextClientThink( CLIENT_THINK_ALWAYS ); } m_bWasPlaying = !m_bIsPlayingBack; // force it to be "changed" } // Playback state changed... if ( m_bWasPlaying != m_bIsPlayingBack ) { for(int i = 0; i < m_hActorList.Count() ; ++i ) { C_BaseFlex *actor = m_hActorList[ i ].Get(); if ( !actor ) continue; Assert( m_pScene ); if ( m_pScene ) { ClearSceneEvents( m_pScene, false ); if ( m_bIsPlayingBack ) { m_pScene->ResetSimulation(); actor->StartChoreoScene( m_pScene ); } else { m_pScene->ResetSimulation(); actor->RemoveChoreoScene( m_pScene ); } } } } } void C_SceneEntity::PreDataUpdate( DataUpdateType_t updateType ) { BaseClass::PreDataUpdate( updateType ); m_bWasPlaying = m_bIsPlayingBack; } //----------------------------------------------------------------------------- // Purpose: Called every frame that an event is active (Start/EndEvent as also // called) // Input : *event - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- void C_SceneEntity::ProcessEvent( float currenttime, CChoreoScene *scene, CChoreoEvent *event ) { // For now we only need to process events if we go back in time. if ( currenttime < event->m_flPrevTime ) { //if ( !V_strstr( scene->GetFilename(), "idleloop" ) ) //{ // Msg( "ProcessEvent( %6.4f, %32s %6.4f ) %6.4f\n", currenttime, event->GetName(), event->m_flPrevTime, m_flCurrentTime ); //} C_BaseFlex *pActor = NULL; CChoreoActor *actor = event->GetActor(); if ( actor ) { pActor = FindNamedActor( actor ); if ( NULL == pActor ) { // TODO: QueueProcessEvent // This can occur if we haven't been networked an actor yet... we need to queue it so that we can // fire off the process event as soon as we have the actor resident on the client. return; } } switch ( event->GetType() ) { case CChoreoEvent::GESTURE: { // Verify data. Assert( m_bMultiplayer ); Assert( scene != NULL ); Assert( event != NULL ); if ( pActor ) { DispatchProcessGesture( scene, pActor, event ); } } break; case CChoreoEvent::SEQUENCE: { // Verify data. Assert( m_bMultiplayer ); Assert( scene != NULL ); Assert( event != NULL ); if ( pActor ) { DispatchProcessSequence( scene, pActor, event ); } } break; } } event->m_flPrevTime = currenttime; } //----------------------------------------------------------------------------- // Purpose: Called for events that are part of a pause condition // Input : *event - // Output : Returns true on event completed, false on non-completion. //----------------------------------------------------------------------------- bool C_SceneEntity::CheckEvent( float currenttime, CChoreoScene *scene, CChoreoEvent *event ) { return true; } C_BaseFlex *C_SceneEntity::FindNamedActor( CChoreoActor *pChoreoActor ) { if ( !m_pScene ) return NULL; if ( m_hOwner.Get() != NULL ) { return m_hOwner.Get(); } int idx = m_pScene->FindActorIndex( pChoreoActor ); if ( idx < 0 || idx >= m_hActorList.Count() ) return NULL; return m_hActorList[ idx ].Get(); } //----------------------------------------------------------------------------- // Purpose: All events are leading edge triggered // Input : currenttime - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::StartEvent( float currenttime, CChoreoScene *scene, CChoreoEvent *event ) { Assert( event ); if ( !Q_stricmp( event->GetName(), "NULL" ) ) { Scene_Printf( "%s : %8.2f: ignored %s\n", GetSceneFileName(), currenttime, event->GetDescription() ); return; } C_BaseFlex *pActor = NULL; CChoreoActor *actor = event->GetActor(); if ( actor ) { pActor = FindNamedActor( actor ); if ( NULL == pActor ) { // This can occur if we haven't been networked an actor yet... we need to queue it so that we can // fire off the start event as soon as we have the actor resident on the client. QueueStartEvent( currenttime, scene, event ); return; } } Scene_Printf( "%s : %8.2f: start %s\n", GetSceneFileName(), currenttime, event->GetDescription() ); switch ( event->GetType() ) { case CChoreoEvent::FLEXANIMATION: { if ( pActor ) { DispatchStartFlexAnimation( scene, pActor, event ); } } break; case CChoreoEvent::EXPRESSION: { if ( pActor ) { DispatchStartExpression( scene, pActor, event ); } } break; case CChoreoEvent::GESTURE: { // Verify data. Assert( m_bMultiplayer ); Assert( scene != NULL ); Assert( event != NULL ); if ( pActor ) { DispatchStartGesture( scene, pActor, event ); } } break; case CChoreoEvent::SEQUENCE: { // Verify data. Assert( m_bMultiplayer ); Assert( scene != NULL ); Assert( event != NULL ); if ( pActor ) { DispatchStartSequence( scene, pActor, event ); } } break; case CChoreoEvent::LOOP: { // Verify data. Assert( m_bMultiplayer ); Assert( scene != NULL ); Assert( event != NULL ); DispatchProcessLoop( scene, event ); } case CChoreoEvent::SPEAK: { if ( IsClientOnly() && pActor ) { // FIXME: dB hack. soundlevel needs to be moved into inside of wav? soundlevel_t iSoundlevel = SNDLVL_TALKING; if ( event->GetParameters2() ) { iSoundlevel = (soundlevel_t)atoi( event->GetParameters2() ); if ( iSoundlevel == SNDLVL_NONE ) { iSoundlevel = SNDLVL_TALKING; } } DispatchStartSpeak( scene, pActor, event, iSoundlevel ); } } break; default: break; } event->m_flPrevTime = currenttime; } //----------------------------------------------------------------------------- // Purpose: // Input : *scene - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchProcessLoop( CChoreoScene *scene, CChoreoEvent *event ) { Assert( event->GetType() == CChoreoEvent::LOOP ); float backtime = (float)atof( event->GetParameters() ); bool process = true; int counter = event->GetLoopCount(); if ( counter != -1 ) { int remaining = event->GetNumLoopsRemaining(); if ( remaining <= 0 ) { process = false; } else { event->SetNumLoopsRemaining( --remaining ); } } if ( !process ) return; scene->LoopToTime( backtime ); SetCurrentTime( backtime, true ); } //----------------------------------------------------------------------------- // Purpose: Playback sound file that contains phonemes // Input : *actor - // *parameters - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchStartSpeak( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event, soundlevel_t iSoundlevel ) { // Emit sound if ( IsClientOnly() && actor ) { CSingleUserRecipientFilter filter( C_BasePlayer::GetLocalPlayer() ); float time_in_past = m_flCurrentTime - event->GetStartTime() ; float soundtime = gpGlobals->curtime - time_in_past; EmitSound_t es; es.m_nChannel = CHAN_VOICE; es.m_flVolume = 1; es.m_SoundLevel = iSoundlevel; es.m_flSoundTime = soundtime; // No CC since we do it manually // FIXME: This will change es.m_bEmitCloseCaption = false; es.m_pSoundName = event->GetParameters(); EmitSound( filter, actor->entindex(), es ); actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); // Close captioning only on master token no matter what... if ( event->GetCloseCaptionType() == CChoreoEvent::CC_MASTER ) { char tok[ CChoreoEvent::MAX_CCTOKEN_STRING ]; bool validtoken = event->GetPlaybackCloseCaptionToken( tok, sizeof( tok ) ); if ( validtoken ) { CRC32_t tokenCRC; CRC32_Init( &tokenCRC ); char lowercase[ 256 ]; Q_strncpy( lowercase, tok, sizeof( lowercase ) ); Q_strlower( lowercase ); CRC32_ProcessBuffer( &tokenCRC, lowercase, Q_strlen( lowercase ) ); CRC32_Final( &tokenCRC ); float endtime = event->GetLastSlaveEndTime(); float durationShort = event->GetDuration(); float durationLong = endtime - event->GetStartTime(); float duration = MAX( durationShort, durationLong ); CHudCloseCaption *hudCloseCaption = GET_HUDELEMENT( CHudCloseCaption ); if ( hudCloseCaption ) { hudCloseCaption->ProcessCaption( lowercase, duration ); } } } } } void C_SceneEntity::DispatchEndSpeak( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { if ( IsClientOnly() ) { actor->RemoveSceneEvent( scene, event, false ); } } //----------------------------------------------------------------------------- // Purpose: // Input : currenttime - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::EndEvent( float currenttime, CChoreoScene *scene, CChoreoEvent *event ) { Assert( event ); if ( !Q_stricmp( event->GetName(), "NULL" ) ) { return; } C_BaseFlex *pActor = NULL; CChoreoActor *actor = event->GetActor(); if ( actor ) { pActor = FindNamedActor( actor ); } Scene_Printf( "%s : %8.2f: finish %s\n", GetSceneFileName(), currenttime, event->GetDescription() ); switch ( event->GetType() ) { case CChoreoEvent::FLEXANIMATION: { if ( pActor ) { DispatchEndFlexAnimation( scene, pActor, event ); } } break; case CChoreoEvent::EXPRESSION: { if ( pActor ) { DispatchEndExpression( scene, pActor, event ); } } break; case CChoreoEvent::GESTURE: { if ( pActor ) { DispatchEndGesture( scene, pActor, event ); } } break; case CChoreoEvent::SEQUENCE: { if ( pActor ) { DispatchEndSequence( scene, pActor, event ); } } break; case CChoreoEvent::SPEAK: { if ( IsClientOnly() && pActor ) { DispatchEndSpeak( scene, pActor, event ); } } break; default: break; } } bool CChoreoStringPool::GetString( short stringId, char *buff, int buffSize ) { // fetch from compiled pool const char *pString = scenefilecache->GetSceneString( stringId ); if ( !pString ) { V_strncpy( buff, "", buffSize ); return false; } V_strncpy( buff, pString, buffSize ); return true; } CChoreoStringPool g_ChoreoStringPool; CChoreoScene *C_SceneEntity::LoadScene( const char *filename ) { char loadfile[ 512 ]; Q_strncpy( loadfile, filename, sizeof( loadfile ) ); Q_SetExtension( loadfile, ".vcd", sizeof( loadfile ) ); Q_FixSlashes( loadfile ); char *pBuffer = NULL; size_t bufsize = scenefilecache->GetSceneBufferSize( loadfile ); if ( bufsize <= 0 ) return NULL; pBuffer = new char[ bufsize ]; if ( !scenefilecache->GetSceneData( filename, (byte *)pBuffer, bufsize ) ) { delete[] pBuffer; return NULL; } CChoreoScene *pScene; if ( IsBufferBinaryVCD( pBuffer, bufsize ) ) { pScene = new CChoreoScene( this ); CUtlBuffer buf( pBuffer, bufsize, CUtlBuffer::READ_ONLY ); if ( !pScene->RestoreFromBinaryBuffer( buf, loadfile, &g_ChoreoStringPool ) ) { Warning( "Unable to restore binary scene '%s'\n", loadfile ); delete pScene; pScene = NULL; } else { pScene->SetPrintFunc( Scene_Printf ); pScene->SetEventCallbackInterface( this ); } } else { g_TokenProcessor.SetBuffer( pBuffer ); pScene = ChoreoLoadScene( loadfile, this, &g_TokenProcessor, Scene_Printf ); } delete[] pBuffer; return pScene; } //----------------------------------------------------------------------------- // Purpose: // Input : *filename - //----------------------------------------------------------------------------- void C_SceneEntity::LoadSceneFromFile( const char *filename ) { UnloadScene(); m_pScene = LoadScene( filename ); } void C_SceneEntity::ClearSceneEvents( CChoreoScene *scene, bool canceled ) { if ( !m_pScene ) return; Scene_Printf( "%s : %8.2f: clearing events\n", GetSceneFileName(), m_flCurrentTime ); int i; for ( i = 0 ; i < m_pScene->GetNumActors(); i++ ) { C_BaseFlex *pActor = FindNamedActor( m_pScene->GetActor( i ) ); if ( !pActor ) continue; // Clear any existing expressions pActor->ClearSceneEvents( scene, canceled ); } WipeQueuedEvents(); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::UnloadScene( void ) { WipeQueuedEvents(); if ( m_pScene ) { ClearSceneEvents( m_pScene, false ); for ( int i = 0 ; i < m_pScene->GetNumActors(); i++ ) { C_BaseFlex *pTestActor = FindNamedActor( m_pScene->GetActor( i ) ); if ( !pTestActor ) continue; pTestActor->RemoveChoreoScene( m_pScene ); } } delete m_pScene; m_pScene = NULL; } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchStartFlexAnimation( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchEndFlexAnimation( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { actor->RemoveSceneEvent( scene, event, false ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchStartExpression( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *event - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchEndExpression( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { actor->RemoveSceneEvent( scene, event, false ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *parameters - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchStartGesture( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { // Ingore null gestures if ( !Q_stricmp( event->GetName(), "NULL" ) ) return; actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *parameters - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchProcessGesture( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { // Ingore null gestures if ( !Q_stricmp( event->GetName(), "NULL" ) ) return; actor->RemoveSceneEvent( scene, event, false ); actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - // *parameters - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchEndGesture( CChoreoScene *scene, C_BaseFlex *actor, CChoreoEvent *event ) { // Ingore null gestures if ( !Q_stricmp( event->GetName(), "NULL" ) ) return; actor->RemoveSceneEvent( scene, event, false ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchStartSequence( CChoreoScene *scene, CBaseFlex *actor, CChoreoEvent *event ) { actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchProcessSequence( CChoreoScene *scene, CBaseFlex *actor, CChoreoEvent *event ) { actor->RemoveSceneEvent( scene, event, false ); actor->AddSceneEvent( scene, event, NULL, IsClientOnly() ); } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - //----------------------------------------------------------------------------- void C_SceneEntity::DispatchEndSequence( CChoreoScene *scene, CBaseFlex *actor, CChoreoEvent *event ) { actor->RemoveSceneEvent( scene, event, false ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::DoThink( float frametime ) { if ( !m_pScene ) return; if ( !m_bIsPlayingBack ) { WipeQueuedEvents(); return; } CheckQueuedEvents(); if ( m_bPaused ) { return; } // Msg( "CL: %d, %f for %s\n", gpGlobals->tickcount, m_flCurrentTime, m_pScene->GetFilename() ); // Tell scene to go m_pScene->Think( m_flCurrentTime ); // Drive simulation time for scene m_flCurrentTime += gpGlobals->frametime; } void C_SceneEntity::ClientThink() { DoThink( gpGlobals->frametime ); } void C_SceneEntity::CheckQueuedEvents() { // Check for duplicates CUtlVector< QueuedEvents_t > events; events = m_QueuedEvents; m_QueuedEvents.RemoveAll(); int c = events.Count(); for ( int i = 0; i < c; ++i ) { const QueuedEvents_t& check = events[ i ]; // Retry starting this event StartEvent( check.starttime, check.scene, check.event ); } } void C_SceneEntity::WipeQueuedEvents() { m_QueuedEvents.Purge(); } void C_SceneEntity::QueueStartEvent( float starttime, CChoreoScene *scene, CChoreoEvent *event ) { // Check for duplicates int c = m_QueuedEvents.Count(); for ( int i = 0; i < c; ++i ) { const QueuedEvents_t& check = m_QueuedEvents[ i ]; if ( check.scene == scene && check.event == event ) return; } QueuedEvents_t qe; qe.scene = scene; qe.event = event; qe.starttime = starttime; m_QueuedEvents.AddToTail( qe ); } //----------------------------------------------------------------------------- // Purpose: Resets time such that the client version of the .vcd is also updated, if appropriate // Input : t - // forceClientSync - unused for now, we may want to reenable this at some point //----------------------------------------------------------------------------- void C_SceneEntity::SetCurrentTime( float t, bool forceClientSync ) { m_flCurrentTime = t; m_flForceClientTime = t; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void C_SceneEntity::PrefetchAnimBlocks( CChoreoScene *pScene ) { if ( !HushAsserts() ) { Assert( pScene && m_bMultiplayer ); } if ( !pScene || !m_bMultiplayer ) return; // Build a fast lookup, too CUtlMap actorMap( 0, 0, DefLessFunc( CChoreoActor* ) ); int nSpew = 0; int nResident = 0; int nChecked = 0; // Iterate events and precache necessary resources for ( int i = 0; i < pScene->GetNumEvents(); i++ ) { CChoreoEvent *pEvent = pScene->GetEvent( i ); if ( !pEvent ) continue; // load any necessary data switch ( pEvent->GetType() ) { default: break; case CChoreoEvent::SEQUENCE: case CChoreoEvent::GESTURE: { CChoreoActor *pActor = pEvent->GetActor(); if ( pActor ) { CBaseFlex *pFlex = NULL; int idx = actorMap.Find( pActor ); if ( idx == actorMap.InvalidIndex() ) { pFlex = FindNamedActor( pActor ); idx = actorMap.Insert( pActor, pFlex ); } else { pFlex = actorMap[ idx ]; } if ( pFlex ) { int iSequence = pFlex->LookupSequence( pEvent->GetParameters() ); if ( iSequence >= 0 ) { CStudioHdr *pStudioHdr = pFlex->GetModelPtr(); if ( pStudioHdr ) { // Now look up the animblock mstudioseqdesc_t &seqdesc = pStudioHdr->pSeqdesc( iSequence ); for ( int iGroup = 0 ; iGroup < seqdesc.groupsize[ 0 ] ; ++iGroup ) { for ( int j = 0; j < seqdesc.groupsize[ 1 ]; ++j ) { int iAnimation = seqdesc.anim( iGroup, j ); int iBaseAnimation = pStudioHdr->iRelativeAnim( iSequence, iAnimation ); mstudioanimdesc_t &animdesc = pStudioHdr->pAnimdesc( iBaseAnimation ); ++nChecked; if ( nSpew != 0 ) { Msg( "%s checking block %d\n", pStudioHdr->pszName(), animdesc.animblock ); } // Async load the animation int iFrame = 0; const mstudioanim_t *panim = animdesc.pAnim( &iFrame ); if ( panim ) { ++nResident; if ( nSpew > 1 ) { Msg( "%s:%s[%i:%i] was resident\n", pStudioHdr->pszName(), animdesc.pszName(), iGroup, j ); } } else { if ( nSpew != 0 ) { Msg( "%s:%s[%i:%i] async load\n", pStudioHdr->pszName(), animdesc.pszName(), iGroup, j ); } } } } } } } } break; } } } if ( !nSpew || nChecked <= 0 ) return; Msg( "%d of %d animations resident\n", nResident, nChecked ); }