// 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" // State. #include "r_state.h" #include "statnums.h" #include "farchive.h" static FRandom pr_flicker ("Flicker"); static FRandom pr_lightflash ("LightFlash"); static FRandom pr_strobeflash ("StrobeFlash"); static FRandom pr_fireflicker ("FireFlicker"); //----------------------------------------------------------------------------- // // // //----------------------------------------------------------------------------- IMPLEMENT_CLASS (DLighting) DLighting::DLighting () { } DLighting::DLighting (sector_t *sector) : DSectorEffect (sector) { ChangeStatNum (STAT_LIGHT); } //----------------------------------------------------------------------------- // // FIRELIGHT FLICKER // //----------------------------------------------------------------------------- IMPLEMENT_CLASS (DFireFlicker) DFireFlicker::DFireFlicker () { } void DFireFlicker::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Count << m_MaxLight << m_MinLight; } //----------------------------------------------------------------------------- // // 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) DFlicker::DFlicker () { } void DFlicker::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Count << m_MaxLight << m_MinLight; } //----------------------------------------------------------------------------- // // // //----------------------------------------------------------------------------- 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 = upper; m_MinLight = lower; sector->lightlevel = upper; 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 (§ors[secnum], upper, lower); } } //----------------------------------------------------------------------------- // // BROKEN LIGHT FLASHING // //----------------------------------------------------------------------------- IMPLEMENT_CLASS (DLightFlash) DLightFlash::DLightFlash () { } void DLightFlash::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Count << m_MaxLight << m_MaxTime << m_MinLight << m_MinTime; } //----------------------------------------------------------------------------- // // 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) DStrobe::DStrobe () { } void DStrobe::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Count << m_MaxLight << m_MinLight << m_DarkTime << m_BrightTime; } //----------------------------------------------------------------------------- // // 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 = §ors[secnum]; 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 = §ors[secnum]; 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 = sectors + secnum; int min = sector->lightlevel; for (int i = 0; i < sector->linecount; i++) { sector_t *tsec = getNextSector (sector->lines[i],sector); 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 = sectors + secnum; 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) { int j; for (j = 0; j < sector->linecount; j++) { sector_t *temp = getNextSector (sector->lines[j], sector); 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. // //----------------------------------------------------------------------------- void EV_LightTurnOnPartway (int tag, double frac) { frac = clamp(frac, 0., 1.); // 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 = §ors[secnum]; int j, bright = 0, min = sector->lightlevel; for (j = 0; j < sector->linecount; ++j) { if ((temp = getNextSector (sector->lines[j], sector)) != NULL) { if (temp->lightlevel > bright) { bright = temp->lightlevel; } if (temp->lightlevel < min) { min = temp->lightlevel; } } } sector->SetLightLevel(int(frac * bright + (1 - frac) * min)); } } //----------------------------------------------------------------------------- // // [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) { sectors[secnum].SetLightLevel(sectors[secnum].lightlevel + value); } } //----------------------------------------------------------------------------- // // Spawn glowing light // //----------------------------------------------------------------------------- IMPLEMENT_CLASS (DGlow) DGlow::DGlow () { } void DGlow::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Direction << m_MaxLight << m_MinLight; } //----------------------------------------------------------------------------- // // // //----------------------------------------------------------------------------- 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) DGlow2::DGlow2 () { } void DGlow2::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_End << m_MaxTics << m_OneShot << m_Start << m_Tics; } //----------------------------------------------------------------------------- // // // //----------------------------------------------------------------------------- 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 = §ors[secnum]; 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 = §ors[secnum]; 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) DPhased::DPhased () { } void DPhased::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_BaseLevel << m_Phase; } //----------------------------------------------------------------------------- // // // //----------------------------------------------------------------------------- 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) { return index; } else { DPhased *l; int baselevel = sector->lightlevel ? sector->lightlevel : light; 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) { 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 iterator; DLighting *effect; while ((effect = iterator.Next()) != NULL) { if (tagManager.SectorHasTag(effect->GetSector(), tag)) { effect->Destroy(); } } }