// 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: Ceiling animation (lowering, crushing, raising) // //----------------------------------------------------------------------------- #include "doomdef.h" #include "p_local.h" #include "s_sound.h" #include "s_sndseq.h" #include "doomstat.h" #include "r_state.h" #include "gi.h" #include "farchive.h" //============================================================================ // // // //============================================================================ inline FArchive &operator<< (FArchive &arc, DCeiling::ECeiling &type) { BYTE val = (BYTE)type; arc << val; type = (DCeiling::ECeiling)val; return arc; } //============================================================================ // // CEILINGS // //============================================================================ IMPLEMENT_CLASS (DCeiling) DCeiling::DCeiling () { } //============================================================================ // // // //============================================================================ void DCeiling::Serialize (FArchive &arc) { Super::Serialize (arc); arc << m_Type << m_BottomHeight << m_TopHeight << m_Speed << m_Speed1 << m_Speed2 << m_Crush << m_Silent << m_Direction << m_Texture << m_NewSpecial << m_Tag << m_OldDirection << m_Hexencrush; } //============================================================================ // // // //============================================================================ void DCeiling::PlayCeilingSound () { if (m_Sector->Flags & SECF_SILENTMOVE) return; if (m_Sector->seqType >= 0) { SN_StartSequence (m_Sector, CHAN_CEILING, m_Sector->seqType, SEQ_PLATFORM, 0, false); } else if (m_Sector->SeqName != NAME_None) { SN_StartSequence (m_Sector, CHAN_CEILING, m_Sector->SeqName, 0); } else { if (m_Silent == 2) SN_StartSequence (m_Sector, CHAN_CEILING, "Silence", 0); else if (m_Silent == 1) SN_StartSequence (m_Sector, CHAN_CEILING, "CeilingSemiSilent", 0); else SN_StartSequence (m_Sector, CHAN_CEILING, "CeilingNormal", 0); } } //============================================================================ // // DCeiling :: Tick // //============================================================================ void DCeiling::Tick () { EResult res; switch (m_Direction) { case 0: // IN STASIS break; case 1: // UP res = MoveCeiling (m_Speed, m_TopHeight, m_Direction); if (res == pastdest) { switch (m_Type) { case ceilCrushAndRaise: m_Direction = -1; m_Speed = m_Speed1; if (!SN_IsMakingLoopingSound (m_Sector)) PlayCeilingSound (); break; // movers with texture change, change the texture then get removed case genCeilingChgT: case genCeilingChg0: m_Sector->SetSpecial(&m_NewSpecial); // fall through case genCeilingChg: m_Sector->SetTexture(sector_t::ceiling, m_Texture); // fall through default: SN_StopSequence (m_Sector, CHAN_CEILING); Destroy (); break; } } break; case -1: // DOWN res = MoveCeiling (m_Speed, m_BottomHeight, m_Crush, m_Direction, m_Hexencrush); if (res == pastdest) { switch (m_Type) { case ceilCrushAndRaise: case ceilCrushRaiseAndStay: m_Speed = m_Speed2; m_Direction = 1; if (!SN_IsMakingLoopingSound (m_Sector)) PlayCeilingSound (); break; // in the case of ceiling mover/changer, change the texture // then remove the active ceiling case genCeilingChgT: case genCeilingChg0: m_Sector->SetSpecial(&m_NewSpecial); // fall through case genCeilingChg: m_Sector->SetTexture(sector_t::ceiling, m_Texture); // fall through default: SN_StopSequence (m_Sector, CHAN_CEILING); Destroy (); break; } } else // ( res != pastdest ) { if (res == crushed) { switch (m_Type) { case ceilCrushAndRaise: case ceilLowerAndCrush: case ceilLowerAndCrushDist: if (m_Speed1 == FRACUNIT && m_Speed2 == FRACUNIT) m_Speed = FRACUNIT / 8; break; default: break; } } } break; } } //============================================================================ // // // //============================================================================ DCeiling::DCeiling (sector_t *sec) : DMovingCeiling (sec) { } DCeiling::DCeiling (sector_t *sec, fixed_t speed1, fixed_t speed2, int silent) : DMovingCeiling (sec) { m_Crush = -1; m_Hexencrush = false; m_Speed = m_Speed1 = speed1; m_Speed2 = speed2; m_Silent = silent; } //============================================================================ // // // //============================================================================ DCeiling *DCeiling::Create(sector_t *sec, DCeiling::ECeiling type, line_t *line, int tag, fixed_t speed, fixed_t speed2, fixed_t height, int crush, int silent, int change, bool hexencrush) { fixed_t targheight = 0; // Silence, GCC // if ceiling already moving, don't start a second function on it if (sec->PlaneMoving(sector_t::ceiling)) { return NULL; } // new door thinker DCeiling *ceiling = new DCeiling (sec, speed, speed2, silent); vertex_t *spot = sec->lines[0]->v1; switch (type) { case ceilCrushAndRaise: case ceilCrushRaiseAndStay: ceiling->m_TopHeight = sec->ceilingplane.d; case ceilLowerAndCrush: case ceilLowerAndCrushDist: targheight = sec->FindHighestFloorPoint (&spot); if (type == ceilLowerAndCrush) { targheight += 8*FRACUNIT; } else if (type == ceilCrushAndRaise) { targheight += height; } ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseToHighest: targheight = sec->FindHighestCeilingSurrounding (&spot); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilLowerByValue: targheight = sec->ceilingplane.ZatPoint (spot) - height; ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseByValue: targheight = sec->ceilingplane.ZatPoint (spot) + height; ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilMoveToValue: { int diff = height - sec->ceilingplane.ZatPoint (spot); targheight = height; if (diff < 0) { ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, height); ceiling->m_Direction = -1; } else { ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, height); ceiling->m_Direction = 1; } } break; case ceilLowerToHighestFloor: targheight = sec->FindHighestFloorSurrounding (&spot); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseToHighestFloor: targheight = sec->FindHighestFloorSurrounding (&spot); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilLowerInstant: targheight = sec->ceilingplane.ZatPoint (spot) - height; ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; ceiling->m_Speed = height; break; case ceilRaiseInstant: targheight = sec->ceilingplane.ZatPoint (spot) + height; ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; ceiling->m_Speed = height; break; case ceilLowerToNearest: targheight = sec->FindNextLowestCeiling (&spot); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseToNearest: targheight = sec->FindNextHighestCeiling (&spot); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilLowerToLowest: targheight = sec->FindLowestCeilingSurrounding (&spot); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseToLowest: targheight = sec->FindLowestCeilingSurrounding (&spot); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilLowerToFloor: targheight = sec->FindHighestFloorPoint (&spot); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseToFloor: // [RH] What's this for? targheight = sec->FindHighestFloorPoint (&spot); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; case ceilLowerToHighest: targheight = sec->FindHighestCeilingSurrounding (&spot); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilLowerByTexture: targheight = sec->ceilingplane.ZatPoint (spot) - sec->FindShortestUpperAround (); ceiling->m_BottomHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = -1; break; case ceilRaiseByTexture: targheight = sec->ceilingplane.ZatPoint (spot) + sec->FindShortestUpperAround (); ceiling->m_TopHeight = sec->ceilingplane.PointToDist (spot, targheight); ceiling->m_Direction = 1; break; default: break; // Silence GCC } ceiling->m_Tag = tag; ceiling->m_Type = type; ceiling->m_Crush = crush; ceiling->m_Hexencrush = hexencrush; // Do not interpolate instant movement ceilings. // Note for ZDoomGL: Check to make sure that you update the sector // after the ceiling moves, because it hasn't actually moved yet. fixed_t movedist; if (ceiling->m_Direction < 0) { movedist = sec->ceilingplane.d - ceiling->m_BottomHeight; } else { movedist = ceiling->m_TopHeight - sec->ceilingplane.d; } if (ceiling->m_Speed >= movedist) { ceiling->StopInterpolation(); } // set texture/type change properties if (change & 3) // if a texture change is indicated { if (change & 4) // if a numeric model change { sector_t *modelsec; //jff 5/23/98 find model with floor at target height if target //is a floor type modelsec = (/*type == ceilRaiseToHighest ||*/ type == ceilRaiseToFloor || /*type == ceilLowerToHighest ||*/ type == ceilLowerToFloor) ? sec->FindModelFloorSector (targheight) : sec->FindModelCeilingSector (targheight); if (modelsec != NULL) { ceiling->m_Texture = modelsec->GetTexture(sector_t::ceiling); switch (change & 3) { case 1: // type is zeroed ceiling->m_NewSpecial.Clear(); ceiling->m_Type = genCeilingChg0; break; case 2: // type is copied sec->GetSpecial(&ceiling->m_NewSpecial); ceiling->m_Type = genCeilingChgT; break; case 3: // type is left alone ceiling->m_Type = genCeilingChg; break; } } } else if (line) // else if a trigger model change { ceiling->m_Texture = line->frontsector->GetTexture(sector_t::ceiling); switch (change & 3) { case 1: // type is zeroed ceiling->m_NewSpecial.Clear(); ceiling->m_Type = genCeilingChg0; break; case 2: // type is copied line->frontsector->GetSpecial(&ceiling->m_NewSpecial); ceiling->m_Type = genCeilingChgT; break; case 3: // type is left alone ceiling->m_Type = genCeilingChg; break; } } } ceiling->PlayCeilingSound (); return ceiling; } //============================================================================ // // EV_DoCeiling // Move a ceiling up/down and all around! // // [RH] Added tag, speed, speed2, height, crush, silent, change params // //============================================================================ bool EV_DoCeiling (DCeiling::ECeiling type, line_t *line, int tag, fixed_t speed, fixed_t speed2, fixed_t height, int crush, int silent, int change, bool hexencrush) { int secnum; bool rtn; sector_t* sec; rtn = false; // check if a manual trigger, if so do just the sector on the backside if (tag == 0) { if (!line || !(sec = line->backsector)) return rtn; secnum = (int)(sec-sectors); // [RH] Hack to let manual crushers be retriggerable, too tag ^= secnum | 0x1000000; P_ActivateInStasisCeiling (tag); return !!DCeiling::Create(sec, type, line, tag, speed, speed2, height, crush, silent, change, hexencrush); } // Reactivate in-stasis ceilings...for certain types. // This restarts a crusher after it has been stopped if (type == DCeiling::ceilCrushAndRaise) { P_ActivateInStasisCeiling (tag); } // affects all sectors with the same tag as the linedef FSectorTagIterator it(tag); while ((secnum = it.Next()) >= 0) { rtn |= !!DCeiling::Create(§ors[secnum], type, line, tag, speed, speed2, height, crush, silent, change, hexencrush); } return rtn; } //============================================================================ // // Restart a ceiling that's in-stasis // [RH] Passed a tag instead of a line and rewritten to use a list // //============================================================================ void P_ActivateInStasisCeiling (int tag) { DCeiling *scan; TThinkerIterator iterator; while ( (scan = iterator.Next ()) ) { if (scan->m_Tag == tag && scan->m_Direction == 0) { scan->m_Direction = scan->m_OldDirection; scan->PlayCeilingSound (); } } } //============================================================================ // // EV_CeilingCrushStop // Stop a ceiling from crushing! // [RH] Passed a tag instead of a line and rewritten to use a list // //============================================================================ bool EV_CeilingCrushStop (int tag) { bool rtn = false; DCeiling *scan; TThinkerIterator iterator; while ( (scan = iterator.Next ()) ) { if (scan->m_Tag == tag && scan->m_Direction != 0) { SN_StopSequence (scan->m_Sector, CHAN_CEILING); scan->m_OldDirection = scan->m_Direction; scan->m_Direction = 0; // in-stasis; rtn = true; } } return rtn; }