Serious-Engine/Sources/EntitiesMP/Common/EmanatingParticles.cpp
Daniel Gibson 72edf1c720 Commented out unused functions and variables
many unused functions and variables are now commented out

You'll still get tons of warnings, which should mostly fall in one of
the following categories:
1. Unnecessary variables or values generated from .es scripts
2. Pointers assigned to from functions with side-effects: DO NOT REMOVE!
   Like CEntity *penNew = CreateEntity_t(...); - even if penNew isn't
   used, CreateEntity() must be called there!
2016-05-09 18:51:03 +02:00

222 lines
5.0 KiB
C++

/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
#include "EntitiesMP/StdH/StdH.h"
#define ID_EMITER_VER "EMT0"
CEmittedParticle::CEmittedParticle(void)
{
ep_tmEmitted=-1;
ep_tmLife=1.0f;
ep_colColor=C_WHITE|CT_OPAQUE;
ep_vSpeed=FLOAT3D(0,0,0);
ep_vPos=FLOAT3D(0,0,0);
ep_fStretch=1;
ep_fRot=0;
ep_fRotSpeed=0;
}
void CEmittedParticle::Write_t( CTStream &strm)
{
strm<<ep_vLastPos;
strm<<ep_vPos;
strm<<ep_fLastRot;
strm<<ep_fRot;
strm<<ep_fRotSpeed;
strm<<ep_vSpeed;
strm<<ep_colLastColor;
strm<<ep_colColor;
strm<<ep_tmEmitted;
strm<<ep_tmLife;
strm<<ep_fStretch;
}
void CEmittedParticle::Read_t( CTStream &strm)
{
strm>>ep_vLastPos;
strm>>ep_vPos;
strm>>ep_fLastRot;
strm>>ep_fRot;
strm>>ep_fRotSpeed;
strm>>ep_vSpeed;
strm>>ep_colLastColor;
strm>>ep_colColor;
strm>>ep_tmEmitted;
strm>>ep_tmLife;
strm>>ep_fStretch;
}
CEmiter::CEmiter(void)
{
em_etType=ET_AIR_ELEMENTAL;
em_bInitialized=FALSE;
em_tmStart=-1;
em_tmLife=0;
em_vG=FLOAT3D(0,1,0);
em_colGlobal=C_WHITE|CT_OPAQUE;
em_iGlobal=0;
em_aepParticles.Clear();
}
void CEmiter::Initialize(CEntity *pen)
{
em_vG=GetGravity(pen);
em_bInitialized=TRUE;
em_tmStart=_pTimer->CurrentTick();
em_iGlobal=0;
}
FLOAT3D CEmiter::GetGravity(CEntity *pen)
{
if(pen->GetPhysicsFlags()&EPF_MOVABLE)
{
return ((CMovableEntity *)pen)->en_vGravityDir*
((CMovableEntity *)pen)->en_fGravityA;
}
return FLOAT3D(0,-10.0f,0);
}
void CEmiter::AddParticle(FLOAT3D vPos, FLOAT3D vSpeed, FLOAT fRot, FLOAT fRotSpeed,
FLOAT tmBirth, FLOAT tmLife, FLOAT fStretch, COLOR colColor)
{
CEmittedParticle &em=em_aepParticles.Push();
em.ep_fLastRot=fRot;
em.ep_fRot=fRot;
em.ep_fRotSpeed=fRotSpeed;
em.ep_vLastPos=vPos;
em.ep_vPos=vPos;
em.ep_vSpeed=vSpeed;
em.ep_colLastColor=colColor;
em.ep_colColor=colColor;
em.ep_tmEmitted=tmBirth;
em.ep_tmLife=tmLife;
em.ep_fStretch=fStretch;
}
void CEmiter::AnimateParticles(void)
{
FLOAT tmNow=_pTimer->CurrentTick();
INDEX ctCount=em_aepParticles.Count();
INDEX iCurrent=0;
while( iCurrent<ctCount)
{
CEmittedParticle &ep=em_aepParticles[iCurrent];
// not yet alive
if(ep.ep_tmEmitted<0)
{
iCurrent++;
}
// if shouldn't live any more
else if( tmNow>ep.ep_tmEmitted+ep.ep_tmLife)
{
CEmittedParticle &emLast=em_aepParticles[ctCount-1];
ep=emLast;
ctCount--;
}
// it is alive, animate it
else
{
// animate position
ep.ep_vLastPos=ep.ep_vPos;
ep.ep_vSpeed=ep.ep_vSpeed+em_vG*_pTimer->TickQuantum;
ep.ep_vPos=ep.ep_vPos+ep.ep_vSpeed*_pTimer->TickQuantum;
// animate rotation
ep.ep_fLastRot=ep.ep_fRot;
ep.ep_fRot+=ep.ep_fRotSpeed*_pTimer->TickQuantum;
// animate color
//FLOAT fRatio=CalculateRatio(tmNow, ep.ep_tmEmitted, ep.ep_tmEmitted+ep.ep_tmLife, 1, 0);
ep.ep_colLastColor=ep.ep_colColor;
iCurrent++;
}
}
if( em_aepParticles.Count()==0)
{
em_aepParticles.PopAll();
}
else if( em_aepParticles.Count()!=ctCount)
{
em_aepParticles.PopUntil(ctCount-1);
}
}
void CEmiter::RenderParticles(void)
{
switch(em_etType)
{
case ET_AIR_ELEMENTAL:
Particles_AirElementalBlow(*(CEmiter*)this);
break;
case ET_SUMMONER_STAFF:
Particles_SummonerStaff(*(CEmiter*)this);
break;
case ET_FIREWORKS01:
Particles_Fireworks01(*(CEmiter*)this);
break;
default:
{
}
}
}
void CEmiter::Read_t( CTStream &strm)
{
if (strm.PeekID_t()!=CChunkID(ID_EMITER_VER)) return;
strm.GetID_t();
INDEX ctMaxParticles;
strm>>ctMaxParticles;
em_bInitialized=TRUE;
INDEX ietType;
strm>>ietType;
em_etType=(CEmiterType) ietType;
strm>>em_tmStart;
strm>>em_tmLife;
strm>>em_vG;
strm>>em_colGlobal;
strm>>em_iGlobal;
if(ctMaxParticles==0) return;
em_aepParticles.Push(ctMaxParticles);
for(INDEX i=0; i<em_aepParticles.Count(); i++)
{
CEmittedParticle &em=em_aepParticles[i];
em.Read_t(strm);
}
}
void CEmiter::Write_t( CTStream &strm)
{
if( !em_bInitialized) return;
INDEX ctMaxParticles=em_aepParticles.Count();
strm.WriteID_t(CChunkID(ID_EMITER_VER));
strm<<ctMaxParticles;
strm<<INDEX(em_etType);
strm<<em_tmStart;
strm<<em_tmLife;
strm<<em_vG;
strm<<em_colGlobal;
strm<<em_iGlobal;
for(INDEX i=0; i<em_aepParticles.Count(); i++)
{
CEmittedParticle &em=em_aepParticles[i];
em.Write_t(strm);
}
}