//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ // //=============================================================================// #include "cbase.h" #include "soundent.h" #include "game.h" #include "world.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" //----------------------------------------------------------------------------- // Some enumerations needed by CSoundEnt //----------------------------------------------------------------------------- // identifiers passed to functions that can operate on either list, to indicate which list to operate on. #define SOUNDLISTTYPE_FREE 1 #define SOUNDLISTTYPE_ACTIVE 2 LINK_ENTITY_TO_CLASS( soundent, CSoundEnt ); static CSoundEnt *g_pSoundEnt = NULL; BEGIN_SIMPLE_DATADESC( CSound ) DEFINE_FIELD( m_hOwner, FIELD_EHANDLE ), DEFINE_FIELD( m_iVolume, FIELD_INTEGER ), DEFINE_FIELD( m_flOcclusionScale, FIELD_FLOAT ), DEFINE_FIELD( m_iType, FIELD_INTEGER ), // DEFINE_FIELD( m_iNextAudible, FIELD_INTEGER ), DEFINE_FIELD( m_bNoExpirationTime, FIELD_BOOLEAN ), DEFINE_FIELD( m_flExpireTime, FIELD_TIME ), DEFINE_FIELD( m_iNext, FIELD_SHORT ), DEFINE_FIELD( m_ownerChannelIndex, FIELD_INTEGER ), DEFINE_FIELD( m_vecOrigin, FIELD_POSITION_VECTOR ), DEFINE_FIELD( m_bHasOwner, FIELD_BOOLEAN ), // DEFINE_FIELD( m_iMyIndex, FIELD_INTEGER ), DEFINE_FIELD( m_hTarget, FIELD_EHANDLE ), END_DATADESC() //========================================================= // CSound - Clear - zeros all fields for a sound //========================================================= void CSound::Clear ( void ) { m_vecOrigin = vec3_origin; m_iType = 0; m_iVolume = 0; m_flOcclusionScale = 0; m_flExpireTime = 0; m_bNoExpirationTime = false; m_iNext = SOUNDLIST_EMPTY; m_iNextAudible = SOUNDLIST_EMPTY; } //========================================================= // Reset - clears the volume, origin, and type for a sound, // but doesn't expire or unlink it. //========================================================= void CSound::Reset ( void ) { m_vecOrigin = vec3_origin; m_iType = 0; m_iVolume = 0; m_iNext = SOUNDLIST_EMPTY; } //========================================================= // FIsSound - returns true if the sound is an Audible sound //========================================================= bool CSound::FIsSound ( void ) { switch( SoundTypeNoContext() ) { case SOUND_COMBAT: case SOUND_WORLD: case SOUND_PLAYER: case SOUND_DANGER: case SOUND_DANGER_SNIPERONLY: case SOUND_THUMPER: case SOUND_BULLET_IMPACT: case SOUND_BUGBAIT: case SOUND_PHYSICS_DANGER: case SOUND_MOVE_AWAY: case SOUND_PLAYER_VEHICLE: return true; default: return false; } } //========================================================= // FIsScent - returns true if the sound is actually a scent // do we really need this function? If a sound isn't a sound, // it must be a scent. (sjb) //========================================================= bool CSound::FIsScent ( void ) { switch( m_iType ) { case SOUND_CARCASS: case SOUND_MEAT: case SOUND_GARBAGE: return true; default: return false; } } //--------------------------------------------------------- // Returns the sound origin //--------------------------------------------------------- const Vector& CSound::GetSoundOrigin( void ) { if ( ( m_iType & SOUND_CONTEXT_FOLLOW_OWNER ) != 0 ) { if( m_hOwner.Get() != NULL ) return m_hOwner->GetAbsOrigin(); } return m_vecOrigin; } //--------------------------------------------------------- // This function returns the spot the listener should be // interested in if he hears the sound. MOST of the time, // this spot is the same as the sound's origin. But sometimes // (like with bullet impacts) the entity that owns the // sound is more interesting than the actual location of the // sound effect. //--------------------------------------------------------- const Vector &CSound::GetSoundReactOrigin( void ) { // Check pure types. switch( m_iType ) { case SOUND_BULLET_IMPACT: case SOUND_PHYSICS_DANGER: if( m_hOwner.Get() != NULL ) { // We really want the origin of this sound's // owner. return m_hOwner->GetAbsOrigin(); } else { // If the owner is somehow invalid, we'll settle // for the sound's origin rather than a crash. return GetSoundOrigin(); } break; } if( m_iType & SOUND_CONTEXT_REACT_TO_SOURCE ) { if( m_hOwner.Get() != NULL ) { return m_hOwner->GetAbsOrigin(); } } // Check for types with additional context. if( m_iType & SOUND_DANGER ) { if( (m_iType & SOUND_CONTEXT_FROM_SNIPER) ) { if( m_hOwner.Get() != NULL ) { // Be afraid of the sniper's location, not where the bullet will hit. return m_hOwner->GetAbsOrigin(); } else { return GetSoundOrigin(); } } } return GetSoundOrigin(); } //----------------------------------------------------------------------------- // Save/load //----------------------------------------------------------------------------- BEGIN_DATADESC( CSoundEnt ) DEFINE_FIELD( m_iFreeSound, FIELD_INTEGER ), DEFINE_FIELD( m_iActiveSound, FIELD_INTEGER ), DEFINE_FIELD( m_cLastActiveSounds, FIELD_INTEGER ), DEFINE_EMBEDDED_ARRAY( m_SoundPool, MAX_WORLD_SOUNDS_SP ), END_DATADESC() //----------------------------------------------------------------------------- // Class factory methods //----------------------------------------------------------------------------- bool CSoundEnt::InitSoundEnt() { ///!!!LATER - do we want a sound ent in deathmatch? (sjb) g_pSoundEnt = (CSoundEnt*)CBaseEntity::Create( "soundent", vec3_origin, vec3_angle, GetWorldEntity() ); if ( !g_pSoundEnt ) { Warning( "**COULD NOT CREATE SOUNDENT**\n" ); return false; } g_pSoundEnt->AddEFlags( EFL_KEEP_ON_RECREATE_ENTITIES ); return true; } void CSoundEnt::ShutdownSoundEnt() { if ( g_pSoundEnt ) { g_pSoundEnt->FreeList(); g_pSoundEnt = NULL; } } //----------------------------------------------------------------------------- // Construction, destruction //----------------------------------------------------------------------------- CSoundEnt::CSoundEnt() { } CSoundEnt::~CSoundEnt() { } //========================================================= // Spawn //========================================================= void CSoundEnt::Spawn( void ) { SetSolid( SOLID_NONE ); Initialize(); SetNextThink( gpGlobals->curtime + 1 ); } void CSoundEnt::OnRestore() { BaseClass::OnRestore(); // Make sure the singleton points to the restored version of this. if ( g_pSoundEnt ) { Assert( g_pSoundEnt != this ); UTIL_Remove( g_pSoundEnt ); } g_pSoundEnt = this; } //========================================================= // Think - at interval, the entire active sound list is checked // for sounds that have ExpireTimes less than or equal // to the current world time, and these sounds are deallocated. //========================================================= void CSoundEnt::Think ( void ) { int iSound; int iPreviousSound; SetNextThink( gpGlobals->curtime + 0.1 );// how often to check the sound list. iPreviousSound = SOUNDLIST_EMPTY; iSound = m_iActiveSound; while ( iSound != SOUNDLIST_EMPTY ) { if ( (m_SoundPool[ iSound ].m_flExpireTime <= gpGlobals->curtime && (!m_SoundPool[ iSound ].m_bNoExpirationTime)) || !m_SoundPool[iSound].ValidateOwner() ) { int iNext = m_SoundPool[ iSound ].m_iNext; if( displaysoundlist.GetInt() == 1 ) { Msg(" Removed Sound: %d (Time:%f)\n", m_SoundPool[ iSound ].SoundType(), gpGlobals->curtime ); } if( displaysoundlist.GetInt() == 2 && m_SoundPool[ iSound ].IsSoundType( SOUND_DANGER ) ) { Msg(" Removed Danger Sound: %d (time:%f)\n", m_SoundPool[ iSound ].SoundType(), gpGlobals->curtime ); } // move this sound back into the free list FreeSound( iSound, iPreviousSound ); iSound = iNext; } else { if( displaysoundlist.GetBool() ) { Vector forward, right, up; GetVectors( &forward, &right, &up ); byte r, g, b; // Default to yellow. r = 255; g = 255; b = 0; CSound *pSound = &m_SoundPool[ iSound ]; if( pSound->IsSoundType( SOUND_DANGER ) ) { r = 255; g = 0; b = 0; } if( displaysoundlist.GetInt() == 1 || (displaysoundlist.GetInt() == 2 && pSound->IsSoundType( SOUND_DANGER ) ) ) { NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + forward * pSound->Volume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - forward * pSound->Volume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + right * pSound->Volume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - right * pSound->Volume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + up * pSound->Volume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - up * pSound->Volume(), r,g,b, false, 0.1 ); if( pSound->m_flOcclusionScale != 1.0 ) { // Draw the occluded radius, too. r = 0; g = 150; b = 255; NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + forward * pSound->OccludedVolume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - forward * pSound->OccludedVolume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + right * pSound->OccludedVolume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - right * pSound->OccludedVolume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() + up * pSound->OccludedVolume(), r,g,b, false, 0.1 ); NDebugOverlay::Line( pSound->GetSoundOrigin(), pSound->GetSoundOrigin() - up * pSound->OccludedVolume(), r,g,b, false, 0.1 ); } } DevMsg( 2, "Soundlist: %d / %d (%d)\n", ISoundsInList( SOUNDLISTTYPE_ACTIVE ),ISoundsInList( SOUNDLISTTYPE_FREE ), ISoundsInList( SOUNDLISTTYPE_ACTIVE ) - m_cLastActiveSounds ); m_cLastActiveSounds = ISoundsInList ( SOUNDLISTTYPE_ACTIVE ); } iPreviousSound = iSound; iSound = m_SoundPool[ iSound ].m_iNext; } } } //========================================================= // Precache - dummy function //========================================================= void CSoundEnt::Precache ( void ) { } //========================================================= // FreeSound - clears the passed active sound and moves it // to the top of the free list. TAKE CARE to only call this // function for sounds in the Active list!! //========================================================= void CSoundEnt::FreeSound ( int iSound, int iPrevious ) { if ( !g_pSoundEnt ) { // no sound ent! return; } if ( iPrevious != SOUNDLIST_EMPTY ) { // iSound is not the head of the active list, so // must fix the index for the Previous sound g_pSoundEnt->m_SoundPool[ iPrevious ].m_iNext = g_pSoundEnt->m_SoundPool[ iSound ].m_iNext; } else { // the sound we're freeing IS the head of the active list. g_pSoundEnt->m_iActiveSound = g_pSoundEnt->m_SoundPool [ iSound ].m_iNext; } // make iSound the head of the Free list. g_pSoundEnt->m_SoundPool[ iSound ].m_iNext = g_pSoundEnt->m_iFreeSound; g_pSoundEnt->m_iFreeSound = iSound; } void CSoundEnt::FreeSound( int iSound ) { // no sound ent! if ( !g_pSoundEnt || ( iSound == SOUNDLIST_EMPTY ) ) return; int iPrevious = SOUNDLIST_EMPTY; for ( int i = g_pSoundEnt->m_iActiveSound; i != SOUNDLIST_EMPTY; iPrevious = i, i = g_pSoundEnt->m_SoundPool[ i ].m_iNext ) { if ( i == iSound ) { FreeSound( iSound, iPrevious ); return; } } Warning( "Attempted to free unknown sound %d!\n", iSound ); } //========================================================= // IAllocSound - moves a sound from the Free list to the // Active list returns the index of the alloc'd sound //========================================================= int CSoundEnt::IAllocSound( void ) { int iNewSound; if ( m_iFreeSound == SOUNDLIST_EMPTY ) { // no free sound! if ( developer.GetInt() >= 2 ) Msg( "Free Sound List is full!\n" ); return SOUNDLIST_EMPTY; } // there is at least one sound available, so move it to the // Active sound list, and return its SoundPool index. iNewSound = m_iFreeSound;// copy the index of the next free sound m_iFreeSound = m_SoundPool[ m_iFreeSound ].m_iNext;// move the index down into the free list. m_SoundPool[ iNewSound ].m_iNext = m_iActiveSound;// point the new sound at the top of the active list. m_iActiveSound = iNewSound;// now make the new sound the top of the active list. You're done. #ifdef DEBUG m_SoundPool[ iNewSound ].m_iMyIndex = iNewSound; #endif // DEBUG return iNewSound; } //========================================================= // InsertSound - Allocates a free sound and fills it with // sound info. //========================================================= int CSoundEnt::InsertSound ( int iType, const Vector &vecOrigin, int iVolume, float flDuration, CBaseEntity *pOwner, int soundChannelIndex, CBaseEntity *pSoundTarget ) { int iThisSound; if ( !g_pSoundEnt ) return SOUNDLIST_EMPTY; if( soundChannelIndex == SOUNDENT_CHANNEL_UNSPECIFIED ) { // No sound channel specified. So just make a new sound. iThisSound = g_pSoundEnt->IAllocSound(); } else { // If this entity has already got a sound in the soundlist that's on this // channel, update that sound. Otherwise add a new one. iThisSound = g_pSoundEnt->FindOrAllocateSound( pOwner, soundChannelIndex ); } if ( iThisSound == SOUNDLIST_EMPTY ) { DevMsg( "Could not AllocSound() for InsertSound() (Game DLL)\n" ); return SOUNDLIST_EMPTY; } CSound *pSound; pSound = &g_pSoundEnt->m_SoundPool[ iThisSound ]; pSound->SetSoundOrigin( vecOrigin ); pSound->m_iType = iType; pSound->m_iVolume = iVolume; pSound->m_flOcclusionScale = 0.5; if ( flDuration != FLT_MAX ) { pSound->m_flExpireTime = gpGlobals->curtime + flDuration; pSound->m_bNoExpirationTime = false; } else { pSound->m_flExpireTime = FLT_MAX; pSound->m_bNoExpirationTime = true; } pSound->m_hOwner.Set( pOwner ); pSound->m_hTarget.Set( pSoundTarget ); pSound->m_ownerChannelIndex = soundChannelIndex; // Keep track of whether this sound had an owner when it was made. If the sound has a long duration, // the owner could disappear by the time someone hears this sound, so we have to look at this boolean // and throw out sounds who have a NULL owner but this field set to true. (sjb) 12/2/2005 if( pOwner ) { pSound->m_bHasOwner = true; } else { pSound->m_bHasOwner = false; } if( displaysoundlist.GetInt() == 1 ) { Msg(" Added Sound! Type:%d Duration:%f (Time:%f)\n", pSound->SoundType(), flDuration, gpGlobals->curtime ); } if( displaysoundlist.GetInt() == 2 && (iType & SOUND_DANGER) ) { Msg(" Added Danger Sound! Duration:%f (Time:%f)\n", flDuration, gpGlobals->curtime ); } return iThisSound; } //--------------------------------------------------------- //--------------------------------------------------------- int CSoundEnt::FindOrAllocateSound( CBaseEntity *pOwner, int soundChannelIndex ) { int iSound = m_iActiveSound; while ( iSound != SOUNDLIST_EMPTY ) { CSound &sound = m_SoundPool[iSound]; if ( sound.m_ownerChannelIndex == soundChannelIndex && sound.m_hOwner == pOwner ) { return iSound; } iSound = sound.m_iNext; } return IAllocSound(); } //========================================================= // Initialize - clears all sounds and moves them into the // free sound list. //========================================================= void CSoundEnt::Initialize ( void ) { int i; int iSound; m_cLastActiveSounds; m_iFreeSound = 0; m_iActiveSound = SOUNDLIST_EMPTY; // In SP, we should only use the first 64 slots so save/load works right. // In MP, have one for each player and 32 extras. int nTotalSoundsInPool = MAX_WORLD_SOUNDS_SP; if ( gpGlobals->maxClients > 1 ) nTotalSoundsInPool = MIN( ( int ) MAX_WORLD_SOUNDS_MP, gpGlobals->maxClients + 32 ); if ( gpGlobals->maxClients+16 > nTotalSoundsInPool ) { Warning( "CSoundEnt pool is low on sounds due to high number of clients.\n" ); } for ( i = 0 ; i < nTotalSoundsInPool ; i++ ) { // clear all sounds, and link them into the free sound list. m_SoundPool[ i ].Clear(); m_SoundPool[ i ].m_iNext = i + 1; } m_SoundPool[ i - 1 ].m_iNext = SOUNDLIST_EMPTY;// terminate the list here. // now reserve enough sounds for each client for ( i = 0 ; i < gpGlobals->maxClients ; i++ ) { iSound = IAllocSound(); if ( iSound == SOUNDLIST_EMPTY ) { DevMsg( "Could not AllocSound() for Client Reserve! (DLL)\n" ); return; } m_SoundPool[ iSound ].m_bNoExpirationTime = true; } } //========================================================= // ISoundsInList - returns the number of sounds in the desired // sound list. //========================================================= int CSoundEnt::ISoundsInList ( int iListType ) { int i; int iThisSound = SOUNDLIST_EMPTY; if ( iListType == SOUNDLISTTYPE_FREE ) { iThisSound = m_iFreeSound; } else if ( iListType == SOUNDLISTTYPE_ACTIVE ) { iThisSound = m_iActiveSound; } else { Msg( "Unknown Sound List Type!\n" ); } if ( iThisSound == SOUNDLIST_EMPTY ) { return 0; } i = 0; while ( iThisSound != SOUNDLIST_EMPTY ) { i++; iThisSound = m_SoundPool[ iThisSound ].m_iNext; } return i; } //========================================================= // ActiveList - returns the head of the active sound list //========================================================= int CSoundEnt::ActiveList ( void ) { if ( !g_pSoundEnt ) { return SOUNDLIST_EMPTY; } return g_pSoundEnt->m_iActiveSound; } //========================================================= // FreeList - returns the head of the free sound list //========================================================= int CSoundEnt::FreeList ( void ) { if ( !g_pSoundEnt ) { return SOUNDLIST_EMPTY; } return g_pSoundEnt->m_iFreeSound; } //========================================================= // SoundPointerForIndex - returns a pointer to the instance // of CSound at index's position in the sound pool. //========================================================= CSound* CSoundEnt::SoundPointerForIndex( int iIndex ) { if ( !g_pSoundEnt ) { return NULL; } if ( iIndex > ( MAX_WORLD_SOUNDS_MP - 1 ) ) { Msg( "SoundPointerForIndex() - Index too large!\n" ); return NULL; } if ( iIndex < 0 ) { Msg( "SoundPointerForIndex() - Index < 0!\n" ); return NULL; } return &g_pSoundEnt->m_SoundPool[ iIndex ]; } //========================================================= // Clients are numbered from 1 to MAXCLIENTS, but the client // reserved sounds in the soundlist are from 0 to MAXCLIENTS - 1, // so this function ensures that a client gets the proper index // to his reserved sound in the soundlist. //========================================================= int CSoundEnt::ClientSoundIndex ( edict_t *pClient ) { int iReturn = ENTINDEX( pClient ) - 1; #ifdef _DEBUG if ( iReturn < 0 || iReturn >= gpGlobals->maxClients ) { Msg( "** ClientSoundIndex returning a bogus value! **\n" ); } #endif // _DEBUG return iReturn; } //----------------------------------------------------------------------------- // Purpose: Return the loudest sound of the specified type at "earposition" //----------------------------------------------------------------------------- CSound* CSoundEnt::GetLoudestSoundOfType( int iType, const Vector &vecEarPosition ) { CSound *pLoudestSound = NULL; int iThisSound; int iBestSound = SOUNDLIST_EMPTY; float flBestDist = MAX_COORD_RANGE*MAX_COORD_RANGE;// so first nearby sound will become best so far. float flDist; CSound *pSound; iThisSound = ActiveList(); while ( iThisSound != SOUNDLIST_EMPTY ) { pSound = SoundPointerForIndex( iThisSound ); if ( pSound && pSound->m_iType == iType && pSound->ValidateOwner() ) { flDist = ( pSound->GetSoundOrigin() - vecEarPosition ).Length(); //FIXME: This doesn't match what's in Listen() //flDist = UTIL_DistApprox( pSound->GetSoundOrigin(), vecEarPosition ); if ( flDist <= pSound->m_iVolume && flDist < flBestDist ) { pLoudestSound = pSound; iBestSound = iThisSound; flBestDist = flDist; } } iThisSound = pSound->m_iNext; } return pLoudestSound; } //----------------------------------------------------------------------------- // Purpose: Inserts an AI sound into the world sound list. //----------------------------------------------------------------------------- class CAISound : public CPointEntity { public: CAISound() { // Initialize these new keyvalues appropriately // in order to support legacy instances of ai_sound. m_iSoundContext = 0x00000000; m_iVolume = 0; m_flDuration = 0.3; } DECLARE_CLASS( CAISound, CPointEntity ); DECLARE_DATADESC(); // data int m_iSoundType; int m_iSoundContext; int m_iVolume; float m_flDuration; string_t m_iszProxyEntityName; // Input handlers void InputInsertSound( inputdata_t &inputdata ); void InputEmitAISound( inputdata_t &inputdata ); }; LINK_ENTITY_TO_CLASS( ai_sound, CAISound ); BEGIN_DATADESC( CAISound ) DEFINE_KEYFIELD( m_iSoundType, FIELD_INTEGER, "soundtype" ), DEFINE_KEYFIELD( m_iSoundContext, FIELD_INTEGER, "soundcontext" ), DEFINE_KEYFIELD( m_iVolume, FIELD_INTEGER, "volume" ), DEFINE_KEYFIELD( m_flDuration, FIELD_FLOAT, "duration" ), DEFINE_KEYFIELD( m_iszProxyEntityName, FIELD_STRING, "locationproxy" ), DEFINE_INPUTFUNC( FIELD_INTEGER, "InsertSound", InputInsertSound ), DEFINE_INPUTFUNC( FIELD_VOID, "EmitAISound", InputEmitAISound ), END_DATADESC() //----------------------------------------------------------------------------- // Purpose: *** OBSOLETE **** Here for legacy support only! //----------------------------------------------------------------------------- void CAISound::InputInsertSound( inputdata_t &inputdata ) { int iVolume; iVolume = inputdata.value.Int(); Vector vecLocation = GetAbsOrigin(); if( m_iszProxyEntityName != NULL_STRING ) { CBaseEntity *pProxy = gEntList.FindEntityByName( NULL, m_iszProxyEntityName ); if( pProxy ) { vecLocation = pProxy->GetAbsOrigin(); } else { DevWarning("Warning- ai_sound cannot find proxy entity named '%s'. Using self.\n", STRING(m_iszProxyEntityName) ); } } g_pSoundEnt->InsertSound( m_iSoundType, vecLocation, iVolume, m_flDuration, this ); } void CAISound::InputEmitAISound( inputdata_t &inputdata ) { Vector vecLocation = GetAbsOrigin(); if( m_iszProxyEntityName != NULL_STRING ) { CBaseEntity *pProxy = gEntList.FindEntityByName( NULL, m_iszProxyEntityName ); if( pProxy ) { vecLocation = pProxy->GetAbsOrigin(); } else { DevWarning("Warning- ai_sound cannot find proxy entity named '%s'. Using self.\n", STRING(m_iszProxyEntityName) ); } } g_pSoundEnt->InsertSound( m_iSoundType | m_iSoundContext, vecLocation, m_iVolume, m_flDuration, this ); }