qzdoom/src/p_lights.cpp

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// Emacs style mode select -*- C++ -*-
//-----------------------------------------------------------------------------
//
// $Id:$
//
// Copyright (C) 1993-1996 by id Software, Inc.
//
// This source is available for distribution and/or modification
// only under the terms of the DOOM Source Code License as
// published by id Software. All rights reserved.
//
// The source is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License
// for more details.
//
// $Log:$
//
// DESCRIPTION:
// Handle Sector base lighting effects.
//
//-----------------------------------------------------------------------------
#include "templates.h"
#include "m_random.h"
#include "doomdef.h"
#include "p_local.h"
#include "p_spec.h"
#include "p_lnspec.h"
#include "doomstat.h"
#include "p_maputl.h"
#include "g_levellocals.h"
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// State.
#include "r_state.h"
#include "statnums.h"
#include "serializer.h"
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static FRandom pr_flicker ("Flicker");
static FRandom pr_lightflash ("LightFlash");
static FRandom pr_strobeflash ("StrobeFlash");
static FRandom pr_fireflicker ("FireFlicker");
class DFireFlicker : public DLighting
{
DECLARE_CLASS(DFireFlicker, DLighting)
public:
DFireFlicker(sector_t *sector);
DFireFlicker(sector_t *sector, int upper, int lower);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_Count;
int m_MaxLight;
int m_MinLight;
private:
DFireFlicker();
};
class DFlicker : public DLighting
{
DECLARE_CLASS(DFlicker, DLighting)
public:
DFlicker(sector_t *sector, int upper, int lower);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_Count;
int m_MaxLight;
int m_MinLight;
private:
DFlicker();
};
class DLightFlash : public DLighting
{
DECLARE_CLASS(DLightFlash, DLighting)
public:
DLightFlash(sector_t *sector);
DLightFlash(sector_t *sector, int min, int max);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_Count;
int m_MaxLight;
int m_MinLight;
int m_MaxTime;
int m_MinTime;
private:
DLightFlash();
};
class DStrobe : public DLighting
{
DECLARE_CLASS(DStrobe, DLighting)
public:
DStrobe(sector_t *sector, int utics, int ltics, bool inSync);
DStrobe(sector_t *sector, int upper, int lower, int utics, int ltics);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_Count;
int m_MinLight;
int m_MaxLight;
int m_DarkTime;
int m_BrightTime;
private:
DStrobe();
};
class DGlow : public DLighting
{
DECLARE_CLASS(DGlow, DLighting)
public:
DGlow(sector_t *sector);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_MinLight;
int m_MaxLight;
int m_Direction;
private:
DGlow();
};
// [RH] Glow from Light_Glow and Light_Fade specials
class DGlow2 : public DLighting
{
DECLARE_CLASS(DGlow2, DLighting)
public:
DGlow2(sector_t *sector, int start, int end, int tics, bool oneshot);
void Serialize(FSerializer &arc);
void Tick();
protected:
int m_Start;
int m_End;
int m_MaxTics;
int m_Tics;
bool m_OneShot;
private:
DGlow2();
};
// [RH] Phased light thinker
class DPhased : public DLighting
{
DECLARE_CLASS(DPhased, DLighting)
public:
DPhased(sector_t *sector);
DPhased(sector_t *sector, int baselevel, int phase);
void Serialize(FSerializer &arc);
void Tick();
protected:
BYTE m_BaseLevel;
BYTE m_Phase;
private:
DPhased();
DPhased(sector_t *sector, int baselevel);
int PhaseHelper(sector_t *sector, int index, int light, sector_t *prev);
};
#define GLOWSPEED 8
#define STROBEBRIGHT 5
#define FASTDARK 15
#define SLOWDARK TICRATE
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//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DLighting, false, false)
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DLighting::DLighting ()
{
}
DLighting::DLighting (sector_t *sector)
: DSectorEffect (sector)
{
ChangeStatNum (STAT_LIGHT);
}
//-----------------------------------------------------------------------------
//
// FIRELIGHT FLICKER
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DFireFlicker, false, false)
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DFireFlicker::DFireFlicker ()
{
}
void DFireFlicker::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("count", m_Count)
("maxlight", m_MaxLight)
("minlight", m_MinLight);
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}
//-----------------------------------------------------------------------------
//
// T_FireFlicker
//
//-----------------------------------------------------------------------------
void DFireFlicker::Tick ()
{
int amount;
if (--m_Count == 0)
{
amount = (pr_fireflicker() & 3) << 4;
// [RH] Shouldn't this be (m_MaxLight - amount < m_MinLight)?
if (m_Sector->lightlevel - amount < m_MinLight)
m_Sector->SetLightLevel(m_MinLight);
else
m_Sector->SetLightLevel(m_MaxLight - amount);
m_Count = 4;
}
}
//-----------------------------------------------------------------------------
//
// P_SpawnFireFlicker
//
//-----------------------------------------------------------------------------
DFireFlicker::DFireFlicker (sector_t *sector)
: DLighting (sector)
{
m_MaxLight = sector->lightlevel;
m_MinLight = sector_t::ClampLight(sector->FindMinSurroundingLight(sector->lightlevel) + 16);
m_Count = 4;
}
DFireFlicker::DFireFlicker (sector_t *sector, int upper, int lower)
: DLighting (sector)
{
m_MaxLight = sector_t::ClampLight(upper);
m_MinLight = sector_t::ClampLight(lower);
m_Count = 4;
}
//-----------------------------------------------------------------------------
//
// [RH] flickering light like Hexen's
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DFlicker, false, false)
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DFlicker::DFlicker ()
{
}
void DFlicker::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("count", m_Count)
("maxlight", m_MaxLight)
("minlight", m_MinLight);
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}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void DFlicker::Tick ()
{
if (m_Count)
{
m_Count--;
}
else if (m_Sector->lightlevel == m_MaxLight)
{
m_Sector->SetLightLevel(m_MinLight);
m_Count = (pr_flicker()&7)+1;
}
else
{
m_Sector->SetLightLevel(m_MaxLight);
m_Count = (pr_flicker()&31)+1;
}
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
DFlicker::DFlicker (sector_t *sector, int upper, int lower)
: DLighting (sector)
{
m_MaxLight = sector_t::ClampLight(upper);
m_MinLight = sector_t::ClampLight(lower);
sector->lightlevel = m_MaxLight;
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m_Count = (pr_flicker()&64)+1;
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void EV_StartLightFlickering (int tag, int upper, int lower)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
new DFlicker (&level.sectors[secnum], upper, lower);
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}
}
//-----------------------------------------------------------------------------
//
// BROKEN LIGHT FLASHING
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DLightFlash, false, false)
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DLightFlash::DLightFlash ()
{
}
void DLightFlash::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("count", m_Count)
("maxlight", m_MaxLight)
("minlight", m_MinLight)
("maxtime", m_MaxTime)
("mintime", m_MinTime);
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}
//-----------------------------------------------------------------------------
//
// T_LightFlash
// Do flashing lights.
//
//-----------------------------------------------------------------------------
void DLightFlash::Tick ()
{
if (--m_Count == 0)
{
if (m_Sector->lightlevel == m_MaxLight)
{
m_Sector->SetLightLevel(m_MinLight);
m_Count = (pr_lightflash() & m_MinTime) + 1;
}
else
{
m_Sector->SetLightLevel(m_MaxLight);
m_Count = (pr_lightflash() & m_MaxTime) + 1;
}
}
}
//-----------------------------------------------------------------------------
//
// P_SpawnLightFlash
//
//-----------------------------------------------------------------------------
DLightFlash::DLightFlash (sector_t *sector)
: DLighting (sector)
{
// Find light levels like Doom.
m_MaxLight = sector->lightlevel;
m_MinLight = sector->FindMinSurroundingLight (sector->lightlevel);
m_MaxTime = 64;
m_MinTime = 7;
m_Count = (pr_lightflash() & m_MaxTime) + 1;
}
DLightFlash::DLightFlash (sector_t *sector, int min, int max)
: DLighting (sector)
{
// Use specified light levels.
m_MaxLight = sector_t::ClampLight(max);
m_MinLight = sector_t::ClampLight(min);
m_MaxTime = 64;
m_MinTime = 7;
m_Count = (pr_lightflash() & m_MaxTime) + 1;
}
//-----------------------------------------------------------------------------
//
// STROBE LIGHT FLASHING
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DStrobe, false, false)
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DStrobe::DStrobe ()
{
}
void DStrobe::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("count", m_Count)
("maxlight", m_MaxLight)
("minlight", m_MinLight)
("darktime", m_DarkTime)
("brighttime", m_BrightTime);
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}
//-----------------------------------------------------------------------------
//
// T_StrobeFlash
//
//-----------------------------------------------------------------------------
void DStrobe::Tick ()
{
if (--m_Count == 0)
{
if (m_Sector->lightlevel == m_MinLight)
{
m_Sector->SetLightLevel(m_MaxLight);
m_Count = m_BrightTime;
}
else
{
m_Sector->SetLightLevel(m_MinLight);
m_Count = m_DarkTime;
}
}
}
//-----------------------------------------------------------------------------
//
// Hexen-style constructor
//
//-----------------------------------------------------------------------------
DStrobe::DStrobe (sector_t *sector, int upper, int lower, int utics, int ltics)
: DLighting (sector)
{
m_DarkTime = ltics;
m_BrightTime = utics;
m_MaxLight = sector_t::ClampLight(upper);
m_MinLight = sector_t::ClampLight(lower);
m_Count = 1; // Hexen-style is always in sync
}
//-----------------------------------------------------------------------------
//
// Doom-style constructor
//
//-----------------------------------------------------------------------------
DStrobe::DStrobe (sector_t *sector, int utics, int ltics, bool inSync)
: DLighting (sector)
{
m_DarkTime = ltics;
m_BrightTime = utics;
m_MaxLight = sector->lightlevel;
m_MinLight = sector->FindMinSurroundingLight (sector->lightlevel);
if (m_MinLight == m_MaxLight)
m_MinLight = 0;
m_Count = inSync ? 1 : (pr_strobeflash() & 7) + 1;
}
//-----------------------------------------------------------------------------
//
// Start strobing lights (usually from a trigger)
// [RH] Made it more configurable.
//
//-----------------------------------------------------------------------------
void EV_StartLightStrobing (int tag, int upper, int lower, int utics, int ltics)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sec = &level.sectors[secnum];
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if (sec->lightingdata)
continue;
new DStrobe (sec, upper, lower, utics, ltics);
}
}
void EV_StartLightStrobing (int tag, int utics, int ltics)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sec = &level.sectors[secnum];
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if (sec->lightingdata)
continue;
new DStrobe (sec, utics, ltics, false);
}
}
//-----------------------------------------------------------------------------
//
// TURN LINE'S TAG LIGHTS OFF
// [RH] Takes a tag instead of a line
//
//-----------------------------------------------------------------------------
void EV_TurnTagLightsOff (int tag)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sector = &level.sectors[secnum];
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int min = sector->lightlevel;
for (auto ln : sector->Lines)
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{
sector_t *tsec = getNextSector (ln, sector);
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if (!tsec)
continue;
if (tsec->lightlevel < min)
min = tsec->lightlevel;
}
sector->SetLightLevel(min);
}
}
//-----------------------------------------------------------------------------
//
// TURN LINE'S TAG LIGHTS ON
// [RH] Takes a tag instead of a line
//
//-----------------------------------------------------------------------------
void EV_LightTurnOn (int tag, int bright)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sector = &level.sectors[secnum];
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int tbright = bright; //jff 5/17/98 search for maximum PER sector
// bright = -1 means to search ([RH] Not 0)
// for highest light level
// surrounding sector
if (bright < 0)
{
for (auto ln : sector->Lines)
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{
sector_t *temp = getNextSector(ln, sector);
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if (!temp)
continue;
if (temp->lightlevel > tbright)
tbright = temp->lightlevel;
}
}
sector->SetLightLevel(tbright);
//jff 5/17/98 unless compatibility optioned
//then maximum near ANY tagged sector
if (i_compatflags & COMPATF_LIGHT)
{
bright = tbright;
}
}
}
//-----------------------------------------------------------------------------
//
// killough 10/98
//
// EV_LightTurnOnPartway
//
// Turn sectors tagged to line lights on to specified or max neighbor level
//
// Passed the tag of sector(s) to light and a light level fraction between 0 and 1.
// Sets the light to min on 0, max on 1, and interpolates in-between.
// Used for doors with gradual lighting effects.
//
//-----------------------------------------------------------------------------
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void EV_LightTurnOnPartway (int tag, double frac)
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{
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frac = clamp(frac, 0., 1.);
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// Search all sectors for ones with same tag as activating line
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *temp, *sector = &level.sectors[secnum];
int bright = 0, min = sector->lightlevel;
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for (auto ln : sector->Lines)
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{
if ((temp = getNextSector (ln, sector)) != nullptr)
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{
if (temp->lightlevel > bright)
{
bright = temp->lightlevel;
}
if (temp->lightlevel < min)
{
min = temp->lightlevel;
}
}
}
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sector->SetLightLevel(int(frac * bright + (1 - frac) * min));
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}
}
//-----------------------------------------------------------------------------
//
// [RH] New function to adjust tagged sectors' light levels
// by a relative amount. Light levels are clipped to
// be within range for sector_t::lightlevel.
//
//-----------------------------------------------------------------------------
void EV_LightChange (int tag, int value)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
level.sectors[secnum].SetLightLevel(level.sectors[secnum].lightlevel + value);
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}
}
//-----------------------------------------------------------------------------
//
// Spawn glowing light
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DGlow, false, false)
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DGlow::DGlow ()
{
}
void DGlow::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("direction", m_Direction)
("maxlight", m_MaxLight)
("minlight", m_MinLight);
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}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void DGlow::Tick ()
{
int newlight = m_Sector->lightlevel;
switch (m_Direction)
{
case -1:
// DOWN
newlight -= GLOWSPEED;
if (newlight <= m_MinLight)
{
newlight += GLOWSPEED;
m_Direction = 1;
}
break;
case 1:
// UP
newlight += GLOWSPEED;
if (newlight >= m_MaxLight)
{
newlight -= GLOWSPEED;
m_Direction = -1;
}
break;
}
m_Sector->SetLightLevel(newlight);
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
DGlow::DGlow (sector_t *sector)
: DLighting (sector)
{
m_MinLight = sector->FindMinSurroundingLight (sector->lightlevel);
m_MaxLight = sector->lightlevel;
m_Direction = -1;
}
//-----------------------------------------------------------------------------
//
// [RH] More glowing light, this time appropriate for Hexen-ish uses.
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DGlow2, false, false)
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DGlow2::DGlow2 ()
{
}
void DGlow2::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("end", m_End)
("maxtics", m_MaxTics)
("oneshot", m_OneShot)
("start", m_Start)
("tics", m_Tics);
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}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void DGlow2::Tick ()
{
if (m_Tics++ >= m_MaxTics)
{
if (m_OneShot)
{
m_Sector->SetLightLevel(m_End);
Destroy ();
return;
}
else
{
int temp = m_Start;
m_Start = m_End;
m_End = temp;
m_Tics -= m_MaxTics;
}
}
m_Sector->SetLightLevel(((m_End - m_Start) * m_Tics) / m_MaxTics + m_Start);
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
DGlow2::DGlow2 (sector_t *sector, int start, int end, int tics, bool oneshot)
: DLighting (sector)
{
m_Start = sector_t::ClampLight(start);
m_End = sector_t::ClampLight(end);
m_MaxTics = tics;
m_Tics = -1;
m_OneShot = oneshot;
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void EV_StartLightGlowing (int tag, int upper, int lower, int tics)
{
int secnum;
// If tics is non-positive, then we can't really do anything.
if (tics <= 0)
{
return;
}
if (upper < lower)
{
int temp = upper;
upper = lower;
lower = temp;
}
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sec = &level.sectors[secnum];
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if (sec->lightingdata)
continue;
new DGlow2 (sec, upper, lower, tics, false);
}
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void EV_StartLightFading (int tag, int value, int tics)
{
int secnum;
FSectorTagIterator it(tag);
while ((secnum = it.Next()) >= 0)
{
sector_t *sec = &level.sectors[secnum];
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if (sec->lightingdata)
continue;
if (tics <= 0)
{
sec->SetLightLevel(value);
}
else
{
// No need to fade if lightlevel is already at desired value.
if (sec->lightlevel == value)
continue;
new DGlow2 (sec, sec->lightlevel, value, tics, true);
}
}
}
//-----------------------------------------------------------------------------
//
// [RH] Phased lighting ala Hexen, but implemented without the help of the Hexen source
// The effect is a little different, but close enough, I feel.
//
//-----------------------------------------------------------------------------
IMPLEMENT_CLASS(DPhased, false, false)
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DPhased::DPhased ()
{
}
void DPhased::Serialize(FSerializer &arc)
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{
Super::Serialize (arc);
arc("baselevel", m_BaseLevel)
("phase", m_Phase);
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}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
void DPhased::Tick ()
{
const int steps = 12;
if (m_Phase < steps)
m_Sector->SetLightLevel( ((255 - m_BaseLevel) * m_Phase) / steps + m_BaseLevel);
else if (m_Phase < 2*steps)
m_Sector->SetLightLevel( ((255 - m_BaseLevel) * (2*steps - m_Phase - 1) / steps
+ m_BaseLevel));
else
m_Sector->SetLightLevel(m_BaseLevel);
if (m_Phase == 0)
m_Phase = 63;
else
m_Phase--;
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
int DPhased::PhaseHelper (sector_t *sector, int index, int light, sector_t *prev)
{
if (!sector || sector->validcount == validcount)
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{
return index;
}
else
{
DPhased *l;
int baselevel = sector->lightlevel ? sector->lightlevel : light;
sector->validcount = validcount;
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if (index == 0)
{
l = this;
m_BaseLevel = baselevel;
}
else
l = new DPhased (sector, baselevel);
int numsteps = PhaseHelper (sector->NextSpecialSector (
sector->special == LightSequenceSpecial1 ?
LightSequenceSpecial2 : LightSequenceSpecial1, prev),
index + 1, l->m_BaseLevel, sector);
l->m_Phase = ((numsteps - index - 1) * 64) / numsteps;
sector->special = 0;
return numsteps;
}
}
//-----------------------------------------------------------------------------
//
//
//
//-----------------------------------------------------------------------------
DPhased::DPhased (sector_t *sector, int baselevel)
: DLighting (sector)
{
m_BaseLevel = baselevel;
}
DPhased::DPhased (sector_t *sector)
: DLighting (sector)
{
validcount++;
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PhaseHelper (sector, 0, 0, NULL);
}
DPhased::DPhased (sector_t *sector, int baselevel, int phase)
: DLighting (sector)
{
m_BaseLevel = baselevel;
m_Phase = phase;
}
//============================================================================
//
// EV_StopLightEffect
//
// Stops a lighting effect that is currently running in a sector.
//
//============================================================================
void EV_StopLightEffect (int tag)
{
TThinkerIterator<DLighting> iterator;
DLighting *effect;
while ((effect = iterator.Next()) != NULL)
{
if (tagManager.SectorHasTag(effect->GetSector(), tag))
{
effect->Destroy();
}
}
}
void P_SpawnLights(sector_t *sector)
{
switch (sector->special)
{
case Light_Phased:
new DPhased(sector, 48, 63 - (sector->lightlevel & 63));
break;
// [RH] Hexen-like phased lighting
case LightSequenceStart:
new DPhased(sector);
break;
case dLight_Flicker:
new DLightFlash(sector);
break;
case dLight_StrobeFast:
new DStrobe(sector, STROBEBRIGHT, FASTDARK, false);
break;
case dLight_StrobeSlow:
new DStrobe(sector, STROBEBRIGHT, SLOWDARK, false);
break;
case dLight_Strobe_Hurt:
new DStrobe(sector, STROBEBRIGHT, FASTDARK, false);
break;
case dLight_Glow:
new DGlow(sector);
break;
case dLight_StrobeSlowSync:
new DStrobe(sector, STROBEBRIGHT, SLOWDARK, true);
break;
case dLight_StrobeFastSync:
new DStrobe(sector, STROBEBRIGHT, FASTDARK, true);
break;
case dLight_FireFlicker:
new DFireFlicker(sector);
break;
case dScroll_EastLavaDamage:
new DStrobe(sector, STROBEBRIGHT, FASTDARK, false);
break;
case sLight_Strobe_Hurt:
new DStrobe(sector, STROBEBRIGHT, FASTDARK, false);
break;
default:
break;
}
}