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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================
# include "cbase.h"
# include "particles/particles.h"
# include "c_te_effect_dispatch.h"
# include "particles_new.h"
# include "networkstringtable_clientdll.h"
# include "tier0/vprof.h"
// memdbgon must be the last include file in a .cpp file!!!
# include "tier0/memdbgon.h"
//-----------------------------------------------------------------------------
// Purpose: An entity that spawns and controls a particle system
//-----------------------------------------------------------------------------
class C_ParticleSystem : public C_BaseEntity
{
DECLARE_CLASS ( C_ParticleSystem , C_BaseEntity ) ;
public :
DECLARE_CLIENTCLASS ( ) ;
C_ParticleSystem ( ) ;
void PreDataUpdate ( DataUpdateType_t updateType ) ;
void PostDataUpdate ( DataUpdateType_t updateType ) ;
void ClientThink ( void ) ;
protected :
int m_iEffectIndex ;
bool m_bActive ;
bool m_bOldActive ;
float m_flStartTime ; // Time at which the effect started
enum { kMAXCONTROLPOINTS = 63 } ; ///< actually one less than the total number of cpoints since 0 is assumed to be me
EHANDLE m_hControlPointEnts [ kMAXCONTROLPOINTS ] ;
// SendPropArray3( SENDINFO_ARRAY3(m_iControlPointParents), SendPropInt( SENDINFO_ARRAY(m_iControlPointParents), 3, SPROP_UNSIGNED ) ),
unsigned char m_iControlPointParents [ kMAXCONTROLPOINTS ] ;
bool m_bWeatherEffect ;
} ;
IMPLEMENT_CLIENTCLASS ( C_ParticleSystem , DT_ParticleSystem , CParticleSystem ) ;
BEGIN_RECV_TABLE_NOBASE ( C_ParticleSystem , DT_ParticleSystem )
RecvPropVector ( RECVINFO_NAME ( m_vecNetworkOrigin , m_vecOrigin ) ) ,
RecvPropEHandle ( RECVINFO ( m_hOwnerEntity ) ) ,
RecvPropInt ( RECVINFO_NAME ( m_hNetworkMoveParent , moveparent ) , 0 , RecvProxy_IntToMoveParent ) ,
RecvPropInt ( RECVINFO ( m_iParentAttachment ) ) ,
RecvPropQAngles ( RECVINFO_NAME ( m_angNetworkAngles , m_angRotation ) ) ,
RecvPropInt ( RECVINFO ( m_iEffectIndex ) ) ,
RecvPropBool ( RECVINFO ( m_bActive ) ) ,
RecvPropFloat ( RECVINFO ( m_flStartTime ) ) ,
RecvPropArray3 ( RECVINFO_ARRAY ( m_hControlPointEnts ) , RecvPropEHandle ( RECVINFO ( m_hControlPointEnts [ 0 ] ) ) ) ,
RecvPropArray3 ( RECVINFO_ARRAY ( m_iControlPointParents ) , RecvPropInt ( RECVINFO ( m_iControlPointParents [ 0 ] ) ) ) ,
RecvPropBool ( RECVINFO ( m_bWeatherEffect ) ) ,
END_RECV_TABLE ( ) ;
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
C_ParticleSystem : : C_ParticleSystem ( )
{
m_bWeatherEffect = false ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void C_ParticleSystem : : PreDataUpdate ( DataUpdateType_t updateType )
{
m_bOldActive = m_bActive ;
BaseClass : : PreDataUpdate ( updateType ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void C_ParticleSystem : : PostDataUpdate ( DataUpdateType_t updateType )
{
BaseClass : : PostDataUpdate ( updateType ) ;
// Always restart if just created and updated
// FIXME: Does this play fairly with PVS?
if ( updateType = = DATA_UPDATE_CREATED )
{
if ( m_bActive )
{
// Delayed here so that we don't get invalid abs queries on level init with active particle systems
SetNextClientThink ( gpGlobals - > curtime ) ;
}
}
else
{
if ( m_bOldActive ! = m_bActive )
{
if ( m_bActive )
{
// Delayed here so that we don't get invalid abs queries on level init with active particle systems
SetNextClientThink ( gpGlobals - > curtime ) ;
}
else
{
ParticleProp ( ) - > StopEmission ( ) ;
}
}
}
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void C_ParticleSystem : : ClientThink ( void )
{
if ( m_bActive )
{
const char * pszName = GetParticleSystemNameFromIndex ( m_iEffectIndex ) ;
if ( pszName & & pszName [ 0 ] )
{
if ( ! GameRules ( ) - > AllowMapParticleEffect ( pszName ) )
return ;
if ( m_bWeatherEffect & & ! GameRules ( ) - > AllowWeatherParticles ( ) )
return ;
CNewParticleEffect * pEffect = ParticleProp ( ) - > Create ( pszName , PATTACH_ABSORIGIN_FOLLOW ) ;
AssertMsg1 ( pEffect , " Particle system couldn't make %s " , pszName ) ;
if ( pEffect )
{
for ( int i = 0 ; i < kMAXCONTROLPOINTS ; + + i )
{
CBaseEntity * pOnEntity = m_hControlPointEnts [ i ] . Get ( ) ;
if ( pOnEntity )
{
ParticleProp ( ) - > AddControlPoint ( pEffect , i + 1 , pOnEntity , PATTACH_ABSORIGIN_FOLLOW ) ;
}
AssertMsg2 ( m_iControlPointParents [ i ] > = 0 & & m_iControlPointParents [ i ] < = kMAXCONTROLPOINTS ,
" Particle system specified bogus control point parent (%d) for point %d. " ,
m_iControlPointParents [ i ] , i ) ;
if ( m_iControlPointParents [ i ] ! = 0 )
{
pEffect - > SetControlPointParent ( i + 1 , m_iControlPointParents [ i ] ) ;
}
}
// NOTE: What we really want here is to compare our lifetime and that of our children and see if this delta is
// already past the end of it, denoting that we're finished. In that case, just destroy us and be done. -- jdw
// TODO: This can go when the SkipToTime code below goes
ParticleProp ( ) - > OnParticleSystemUpdated ( pEffect , 0.0f ) ;
// Skip the effect ahead if we're restarting it
float flTimeDelta = gpGlobals - > curtime - m_flStartTime ;
if ( flTimeDelta > 0.01f )
{
VPROF_BUDGET ( " C_ParticleSystem::ClientThink SkipToTime " , " Particle Simulation " ) ;
pEffect - > SkipToTime ( flTimeDelta ) ;
}
}
}
}
}
//======================================================================================================================
// PARTICLE SYSTEM DISPATCH EFFECT
//======================================================================================================================
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void ParticleEffectCallback ( const CEffectData & data )
{
if ( SuppressingParticleEffects ( ) )
return ; // this needs to be before using data.m_nHitBox, since that may be a serialized value that's past the end of the current particle system string table
const char * pszName = GetParticleSystemNameFromIndex ( data . m_nHitBox ) ;
CSmartPtr < CNewParticleEffect > pEffect = NULL ;
if ( data . m_fFlags & PARTICLE_DISPATCH_FROM_ENTITY )
{
if ( data . m_hEntity . Get ( ) )
{
C_BaseEntity * pEnt = C_BaseEntity : : Instance ( data . m_hEntity ) ;
if ( pEnt & & ! pEnt - > IsDormant ( ) )
{
if ( data . m_fFlags & PARTICLE_DISPATCH_RESET_PARTICLES )
{
pEnt - > ParticleProp ( ) - > StopEmission ( ) ;
}
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Vector vOffset = vec3_origin ;
ParticleAttachment_t iAttachType = ( ParticleAttachment_t ) data . m_nDamageType ;
if ( iAttachType = = PATTACH_ABSORIGIN_FOLLOW | | iAttachType = = PATTACH_POINT_FOLLOW | | iAttachType = = PATTACH_ROOTBONE_FOLLOW )
{
vOffset = data . m_vStart ;
}
pEffect = pEnt - > ParticleProp ( ) - > Create ( pszName , iAttachType , data . m_nAttachmentIndex , vOffset ) ;
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AssertMsg2 ( pEffect . IsValid ( ) & & pEffect - > IsValid ( ) , " %s could not create particle effect %s " ,
C_BaseEntity : : Instance ( data . m_hEntity ) - > GetDebugName ( ) , pszName ) ;
if ( pEffect . IsValid ( ) & & pEffect - > IsValid ( ) )
{
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if ( iAttachType = = PATTACH_CUSTOMORIGIN )
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{
pEffect - > SetSortOrigin ( data . m_vOrigin ) ;
pEffect - > SetControlPoint ( 0 , data . m_vOrigin ) ;
pEffect - > SetControlPoint ( 1 , data . m_vStart ) ;
Vector vecForward , vecRight , vecUp ;
AngleVectors ( data . m_vAngles , & vecForward , & vecRight , & vecUp ) ;
pEffect - > SetControlPointOrientation ( 0 , vecForward , vecRight , vecUp ) ;
}
}
}
}
}
else
{
if ( GameRules ( ) )
{
pszName = GameRules ( ) - > TranslateEffectForVisionFilter ( " particles " , pszName ) ;
}
pEffect = CNewParticleEffect : : Create ( NULL , pszName ) ;
if ( pEffect - > IsValid ( ) )
{
pEffect - > SetSortOrigin ( data . m_vOrigin ) ;
pEffect - > SetControlPoint ( 0 , data . m_vOrigin ) ;
pEffect - > SetControlPoint ( 1 , data . m_vStart ) ;
Vector vecForward , vecRight , vecUp ;
AngleVectors ( data . m_vAngles , & vecForward , & vecRight , & vecUp ) ;
pEffect - > SetControlPointOrientation ( 0 , vecForward , vecRight , vecUp ) ;
}
}
if ( pEffect . IsValid ( ) & & pEffect - > IsValid ( ) )
{
if ( data . m_bCustomColors )
{
pEffect - > SetControlPoint ( CUSTOM_COLOR_CP1 , data . m_CustomColors . m_vecColor1 ) ;
pEffect - > SetControlPoint ( CUSTOM_COLOR_CP2 , data . m_CustomColors . m_vecColor2 ) ;
}
if ( data . m_bControlPoint1 )
{
pEffect - > SetControlPoint ( 1 , data . m_ControlPoint1 . m_vecOffset ) ;
}
}
}
DECLARE_CLIENT_EFFECT ( " ParticleEffect " , ParticleEffectCallback ) ;
//======================================================================================================================
// PARTICLE SYSTEM STOP EFFECT
//======================================================================================================================
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void ParticleEffectStopCallback ( const CEffectData & data )
{
if ( data . m_hEntity . Get ( ) )
{
C_BaseEntity * pEnt = C_BaseEntity : : Instance ( data . m_hEntity ) ;
if ( pEnt )
{
pEnt - > ParticleProp ( ) - > StopEmission ( ) ;
}
}
}
DECLARE_CLIENT_EFFECT ( " ParticleEffectStop " , ParticleEffectStopCallback ) ;