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https://github.com/nillerusr/source-engine.git
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340 lines
8.3 KiB
C++
340 lines
8.3 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=============================================================================//
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#include "cbase.h"
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#include "particle_prototype.h"
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#include "particle_util.h"
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#include "baseparticleentity.h"
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#include "engine/IEngineTrace.h"
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// memdbgon must be the last include file in a .cpp file!!!
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#include "tier0/memdbgon.h"
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// ------------------------------------------------------------------------- //
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// Defines.
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// ------------------------------------------------------------------------- //
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#define MAX_FIRE_EMITTERS 128
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#define FIRE_PARTICLE_LIFETIME 2
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Vector g_FireSpreadDirection(0,0,1);
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class FireRamp
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{
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public:
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FireRamp(const Vector &s, const Vector &e)
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{
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m_Start=s;
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m_End=e;
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}
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Vector m_Start;
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Vector m_End;
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};
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FireRamp g_FireRamps[] =
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{
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FireRamp(Vector(1,0,0), Vector(1,1,0)),
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FireRamp(Vector(0.5,0.5,0), Vector(0,0,0))
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};
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#define NUM_FIRE_RAMPS (sizeof(g_FireRamps) / sizeof(g_FireRamps[0]))
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#define NUM_FIREGRID_OFFSETS 8
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Vector g_Offsets[NUM_FIREGRID_OFFSETS] =
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{
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Vector(-1,-1,-1),
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Vector( 1,-1,-1),
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Vector(-1, 1,-1),
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Vector( 1, 1,-1),
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Vector(-1,-1, 1),
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Vector( 1,-1, 1),
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Vector(-1, 1, 1),
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Vector( 1, 1, 1),
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};
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// If you follow g_Offset[index], you can follow g_Offsets[GetOppositeOffset(index)] to get back.
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inline int GetOppositeOffset(int offset)
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{
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return NUM_FIREGRID_OFFSETS - offset - 1;
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}
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// ------------------------------------------------------------------------- //
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// Classes.
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// ------------------------------------------------------------------------- //
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class C_ParticleFire : public C_BaseParticleEntity, public IPrototypeAppEffect
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{
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public:
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DECLARE_CLASS( C_ParticleFire, C_BaseParticleEntity );
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DECLARE_CLIENTCLASS();
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C_ParticleFire();
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~C_ParticleFire();
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class FireEmitter
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{
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public:
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Vector m_Pos;
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TimedEvent m_SpawnEvent;
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float m_Lifetime; // How long it's been emitting.
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unsigned char m_DirectionsTested; // 1 bit for each of g_Offsets.
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};
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class FireParticle : public Particle
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{
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public:
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Vector m_StartPos; // The particle moves from m_StartPos to (m_StartPos+m_Direction) over its lifetime.
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Vector m_Direction;
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float m_Lifetime;
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float m_SpinAngle;
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unsigned char m_iRamp; // Which fire ramp are we using?
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};
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// C_BaseEntity.
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public:
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virtual void OnDataChanged( DataUpdateType_t updateType );
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// IPrototypeAppEffect.
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public:
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virtual void Start(CParticleMgr *pParticleMgr, IPrototypeArgAccess *pArgs);
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// IParticleEffect.
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public:
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virtual void Update(float fTimeDelta);
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virtual void RenderParticles( CParticleRenderIterator *pIterator );
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virtual void SimulateParticles( CParticleSimulateIterator *pIterator );
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public:
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CParticleMgr *m_pParticleMgr;
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PMaterialHandle m_MaterialHandle;
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// Controls where the initial fire goes.
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Vector m_vOrigin;
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Vector m_vDirection;
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TimedEvent m_EmitterSpawn;
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FireEmitter m_Emitters[MAX_FIRE_EMITTERS];
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int m_nEmitters;
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private:
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C_ParticleFire( const C_ParticleFire & );
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};
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// ------------------------------------------------------------------------- //
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// Tables.
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// ------------------------------------------------------------------------- //
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// Expose to the particle app.
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EXPOSE_PROTOTYPE_EFFECT(ParticleFire, C_ParticleFire);
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// Datatable..
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IMPLEMENT_CLIENTCLASS_DT_NOBASE(C_ParticleFire, DT_ParticleFire, CParticleFire)
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RecvPropVector(RECVINFO(m_vOrigin)),
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RecvPropVector(RECVINFO(m_vDirection)),
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END_RECV_TABLE()
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// ------------------------------------------------------------------------- //
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// C_FireSmoke implementation.
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// ------------------------------------------------------------------------- //
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C_ParticleFire::C_ParticleFire()
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{
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m_pParticleMgr = NULL;
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m_MaterialHandle = INVALID_MATERIAL_HANDLE;
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}
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C_ParticleFire::~C_ParticleFire()
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{
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if(m_pParticleMgr)
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m_pParticleMgr->RemoveEffect( &m_ParticleEffect );
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}
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void C_ParticleFire::OnDataChanged(DataUpdateType_t updateType)
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{
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C_BaseEntity::OnDataChanged(updateType);
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if(updateType == DATA_UPDATE_CREATED)
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{
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Start(ParticleMgr(), NULL);
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}
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}
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void C_ParticleFire::Start(CParticleMgr *pParticleMgr, IPrototypeArgAccess *pArgs)
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{
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m_pParticleMgr = pParticleMgr;
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m_pParticleMgr->AddEffect( &m_ParticleEffect, this );
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m_MaterialHandle = m_ParticleEffect.FindOrAddMaterial("particle/particle_fire");
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// Start
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m_nEmitters = 0;
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m_EmitterSpawn.Init(15);
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}
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static float fireSpreadDist = 15;
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static float size = 20;
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void C_ParticleFire::Update(float fTimeDelta)
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{
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if(!m_pParticleMgr)
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{
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assert(false);
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return;
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}
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// Add new emitters.
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if(m_nEmitters < MAX_FIRE_EMITTERS)
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{
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float tempDelta = fTimeDelta;
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while(m_EmitterSpawn.NextEvent(tempDelta))
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{
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FireEmitter *pEmitter = NULL;
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if(m_nEmitters == 0)
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{
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// Make the first emitter.
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trace_t trace;
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UTIL_TraceLine(m_vOrigin, m_vOrigin+m_vDirection*1000, MASK_SOLID_BRUSHONLY, NULL, COLLISION_GROUP_NONE, &trace);
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if(trace.fraction < 1)
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{
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pEmitter = &m_Emitters[m_nEmitters];
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pEmitter->m_Pos = trace.endpos + trace.plane.normal * (size - 1);
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pEmitter->m_DirectionsTested = 0;
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}
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}
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else
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{
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static int nTries = 50;
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for(int iTry=0; iTry < nTries; iTry++)
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{
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FireEmitter *pSourceEmitter = &m_Emitters[rand() % m_nEmitters];
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int iOffset = rand() % NUM_FIREGRID_OFFSETS;
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if(pSourceEmitter->m_DirectionsTested & (1 << iOffset))
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continue;
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// Test the corners of the new cube. If some points are solid and some are not, then
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// we can put fire here.
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Vector basePos = pSourceEmitter->m_Pos + g_Offsets[iOffset] * fireSpreadDist;
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int nSolidCorners = 0;
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for(int iCorner=0; iCorner < NUM_FIREGRID_OFFSETS; iCorner++)
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{
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Vector vCorner = basePos + g_Offsets[iCorner]*fireSpreadDist;
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if ( enginetrace->GetPointContents(vCorner) & CONTENTS_SOLID )
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++nSolidCorners;
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}
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// Don't test this square again.
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pSourceEmitter->m_DirectionsTested |= 1 << iOffset;
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if(nSolidCorners != 0 && nSolidCorners != NUM_FIREGRID_OFFSETS)
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{
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pEmitter = &m_Emitters[m_nEmitters];
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pEmitter->m_Pos = basePos;
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pEmitter->m_DirectionsTested = 1 << GetOppositeOffset(iOffset);
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}
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}
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}
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if(pEmitter)
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{
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pEmitter->m_Lifetime = 0;
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pEmitter->m_SpawnEvent.Init(1);
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++m_nEmitters;
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}
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}
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}
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// Spawn particles out of the emitters.
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for(int i=0; i < m_nEmitters; i++)
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{
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FireEmitter *pEmitter = &m_Emitters[i];
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float tempDelta = fTimeDelta;
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while(pEmitter->m_SpawnEvent.NextEvent(tempDelta))
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{
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FireParticle *pParticle = (FireParticle*)m_ParticleEffect.AddParticle(sizeof(FireParticle), m_MaterialHandle);
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if(pParticle)
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{
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static float particleSpeed = 15;
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pParticle->m_StartPos = pEmitter->m_Pos;
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pParticle->m_Direction = g_FireSpreadDirection * particleSpeed + RandomVector(0, particleSpeed*0.5);
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pParticle->m_iRamp = rand() % NUM_FIRE_RAMPS;
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pParticle->m_Lifetime = 0;
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}
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}
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}
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}
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void C_ParticleFire::RenderParticles( CParticleRenderIterator *pIterator )
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{
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const FireParticle *pParticle = (const FireParticle*)pIterator->GetFirst();
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while ( pParticle )
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{
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float smooth01 = 1 - (cos(pParticle->m_Lifetime * 3.14159 / FIRE_PARTICLE_LIFETIME) * 0.5 + 0.5);
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float smooth00 = 1 - (cos(pParticle->m_Lifetime * 3.14159 * 2 / FIRE_PARTICLE_LIFETIME) * 0.5 + 0.5);
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FireRamp *pRamp = &g_FireRamps[pParticle->m_iRamp];
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Vector curColor = pRamp->m_Start + (pRamp->m_End - pRamp->m_Start) * smooth01;
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// Render.
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Vector tPos;
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TransformParticle(m_pParticleMgr->GetModelView(), pParticle->m_Pos, tPos);
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float sortKey = (int)tPos.z;
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RenderParticle_ColorSize(
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pIterator->GetParticleDraw(),
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tPos,
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curColor,
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smooth00,
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size);
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pParticle = (const FireParticle*)pIterator->GetNext( sortKey );
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}
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}
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void C_ParticleFire::SimulateParticles( CParticleSimulateIterator *pIterator )
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{
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FireParticle *pParticle = (FireParticle*)pIterator->GetFirst();
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while ( pParticle )
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{
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// Should this particle die?
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pParticle->m_Lifetime += pIterator->GetTimeDelta();
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if(pParticle->m_Lifetime > FIRE_PARTICLE_LIFETIME)
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{
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pIterator->RemoveParticle( pParticle );
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}
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else
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{
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float smooth01 = 1 - (cos(pParticle->m_Lifetime * 3.14159 / FIRE_PARTICLE_LIFETIME) * 0.5 + 0.5);
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pParticle->m_Pos = pParticle->m_StartPos + pParticle->m_Direction * smooth01;
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}
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pParticle = (FireParticle*)pIterator->GetNext();
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}
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}
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