raze/source/games/exhumed/src/object.cpp

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//-------------------------------------------------------------------------
/*
Copyright (C) 2010-2019 EDuke32 developers and contributors
Copyright (C) 2019 sirlemonhead, Nuke.YKT
This file is part of PCExhumed.
PCExhumed is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License version 2
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 "ns.h"
#include "engine.h"
#include "aistuff.h"
#include "exhumed.h"
#include "view.h"
#include "sound.h"
#include "names.h"
#include "sequence.h"
#include "player.h"
#include "interpolate.h"
#include "mapinfo.h"
#include <string.h>
#include <assert.h>
BEGIN_PS_NS
static short ObjectSeq[] = {
46, -1, 72, -1
};
static short ObjectStatnum[] = {
kStatExplodeTrigger, kStatExplodeTarget, 98, kStatDestructibleSprite
};
struct Trail
{
short field_0;
short field_2;
short field_4;
};
struct TrailPoint
{
int x;
int y;
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char nTrailPointVal;
short nTrailPointPrev;
short nTrailPointNext;
};
struct Bob
{
short nSector;
char field_2;
char field_3;
int z;
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short sBobID;
};
struct Drip
{
short nSprite;
short field_2;
};
// 56 bytes
struct Elev
{
short field_0;
short nChannel;
short nSector;
int field_6;
int field_A;
short nCountZOffsets; // count of items in zOffsets
short nCurZOffset;
int zOffsets[8]; // different Z offsets
short field_32;
short nSprite;
short field_36;
};
// 16 bytes
struct MoveSect
{
short nSector;
short nTrail;
short nTrailPoint;
short field_6;
short field_8; // nSector?
int field_10;
short field_14; // nChannel?
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short sMoveDir;
};
struct Object
{
short field_0;
short nHealth;
short field_4;
short nSprite;
short field_8;
short field_10;
short field_12;
};
struct wallFace
{
short nChannel;
short nWall;
short field_4;
short field_6[8];
};
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struct slideData
{
short nChannel;
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short field_2a;
short field_4a;
short nSprite;
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short field_8a;
int field_0;
int field_4;
int field_8;
int field_C;
int x1;
int y1;
int x2;
int y2;
int field_20;
int field_24;
int field_28;
int field_2C;
int field_30;
int field_34;
int field_38;
int field_3C;
};
struct Point
{
short field_0;
short field_2;
short field_4;
short field_6;
short field_8;
short field_A;
short field_C;
short field_E;
};
struct Trap
{
short field_0;
short nSprite;
short nType;
short field_6;
short field_8;
short field_A;
short field_C;
short field_E;
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short nTrapInterval;
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};
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TArray<Point> PointList;
TArray<Trap> sTrap;
TArray<Bob> sBob;
TArray<Trail> sTrail;
TArray<TrailPoint> sTrailPoint;
TArray<Elev> Elevator;
TArray<Object> ObjectList;
TArray<MoveSect> sMoveSect;
TArray<slideData> SlideData;
TArray<wallFace> WallFace;
TArray<Drip> sDrip;
int lFinaleStart;
short nEnergyBlocks;
short nFinaleStage;
short nFinaleSpr;
short nDronePitch = 0;
short nSmokeSparks = 0;
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FSerializer& Serialize(FSerializer& arc, const char* keyname, Trail& w, Trail* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("at2", w.field_2)
("at4", w.field_4)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, TrailPoint& w, TrailPoint* def)
{
if (arc.BeginObject(keyname))
{
arc("x", w.x)
("y", w.y)
("val", w.nTrailPointVal)
("next", w.nTrailPointNext)
("prev", w.nTrailPointPrev)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Bob& w, Bob* def)
{
if (arc.BeginObject(keyname))
{
arc("sector", w.nSector)
("at2", w.field_2)
("at3", w.field_3)
("z", w.z)
("id", w.sBobID)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Drip& w, Drip* def)
{
if (arc.BeginObject(keyname))
{
arc("sprite", w.nSprite)
("at2", w.field_2)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Elev& w, Elev* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("channel", w.nChannel)
("sector", w.nSector)
("at6", w.field_6)
("ata", w.field_A)
("countz", w.nCountZOffsets)
("curz", w.nCurZOffset)
.Array("zofs", w.zOffsets, 8)
("at32", w.field_32)
("sprite", w.nSprite)
("at36", w.field_36)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, MoveSect& w, MoveSect* def)
{
if (arc.BeginObject(keyname))
{
arc("sector", w.nSector)
("trail", w.nTrail)
("trailpoint", w.nTrailPoint)
("at6", w.field_6)
("at8", w.field_8)
("at10", w.field_10)
("at14", w.field_14)
("movedir", w.sMoveDir)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Object& w, Object* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("health", w.nHealth)
("at4", w.field_4)
("at8", w.field_8)
("sprite", w.nSprite)
("at8", w.field_8)
("at10", w.field_10)
("at12", w.field_12)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, wallFace& w, wallFace* def)
{
if (arc.BeginObject(keyname))
{
arc("channel", w.nChannel)
("wall", w.nWall)
("at4", w.field_4)
.Array("at6", w.field_6, 8)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, slideData& w, slideData* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("at4", w.field_4)
("at8", w.field_8)
("atc", w.field_C)
("x1", w.x1)
("y1", w.y1)
("x2", w.x2)
("y2", w.y2)
("at20", w.field_20)
("at24", w.field_24)
("at28", w.field_28)
("at2c", w.field_2C)
("at30", w.field_30)
("at34", w.field_34)
("at38", w.field_38)
("at3c", w.field_3C)
("channel", w.nChannel)
("at2a", w.field_2a)
("at4a", w.field_4a)
("at6a", w.nSprite)
("at8a", w.field_8a)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Point& w, Point* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("at2", w.field_2)
("at4", w.field_4)
("at6", w.field_6)
("at8", w.field_8)
("ata", w.field_A)
("atc", w.field_C)
("ate", w.field_E)
.EndObject();
}
return arc;
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}
FSerializer& Serialize(FSerializer& arc, const char* keyname, Trap& w, Trap* def)
{
if (arc.BeginObject(keyname))
{
arc("at0", w.field_0)
("sprite", w.nSprite)
("type", w.nType)
("at6", w.field_6)
("at8", w.field_8)
("ata", w.field_A)
("atc", w.field_C)
("ate", w.field_E)
("interval", w.nTrapInterval)
.EndObject();
}
return arc;
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}
void SerializeObjects(FSerializer& arc)
{
if (arc.BeginObject("objects"))
{
arc("points", PointList)
("traps", sTrap)
("bob", sBob)
("trails", sTrail)
("trailpoints", sTrailPoint)
("elevators", Elevator)
("objects", ObjectList)
("movesect", sMoveSect)
("slides", SlideData)
("wallface", WallFace)
("drips", sDrip)
("finalestart", lFinaleStart)
("energyblocks", nEnergyBlocks)
("finalestage", nFinaleStage)
("finalespr", nFinaleSpr)
("dronepitch", nDronePitch)
("smokesparks", nSmokeSparks)
.EndObject();
}
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}
// done
void InitObjects()
{
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sTrap.Clear();
sBob.Clear();
sTrail.Clear();
sTrailPoint.Clear();
ObjectList.Clear();
sMoveSect.Clear();
sDrip.Clear();
nEnergyBlocks = 0;
nDronePitch = 0;
nFinaleStage = 0;
lFinaleStart = 0;
nSmokeSparks = 0;
}
// done
void InitElev()
{
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Elevator.Clear();
}
// done
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DExhumedActor* BuildWallSprite(int nSector)
{
int nWall = sector[nSector].wallptr;
int x = wall[nWall].x;
int y = wall[nWall].y;
int x2 = wall[nWall + 1].x;
int y2 = wall[nWall + 1].y;
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auto pActor = insertActor(nSector, 401);
auto pSprite = &pActor->s();
pSprite->x = (x + x2) / 2;
pSprite->y = (y + y2) / 2;
pSprite->z = (sector[nSector].floorz + sector[nSector].ceilingz) / 2;
pSprite->cstat = 0x8000;
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return pActor;
}
// done
short FindWallSprites(short nSector)
{
int var_24 = 0x7FFFFFFF;
int ecx = 0x7FFFFFFF;
int nWall = sector[nSector].wallptr;
int nWallCount = sector[nSector].wallnum;
int esi = 0x80000002;
int edi = 0x80000002;
int i;
for (i = 0; i < nWallCount; i++)
{
if (wall[nWall].x < var_24) {
var_24 = wall[nWall].x;
}
if (esi < wall[nWall].x) {
esi = wall[nWall].x;
}
if (ecx > wall[nWall].y) {
ecx = wall[nWall].y;
}
if (edi < wall[nWall].y) {
edi = wall[nWall].y;
}
nWall++;
}
ecx -= 5;
esi += 5;
edi += 5;
var_24 -= 5;
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DExhumedActor* pAct = nullptr;
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ExhumedSpriteIterator it;
while (auto actor = it.Next())
{
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auto spr = &actor->s();
if (spr->lotag == 0)
{
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if ((spr->cstat & 0x50) == 80)
{
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int var_28 = spr->x;
int ebx = spr->y;
if ((var_28 >= var_24) && (esi >= var_28) && (ebx >= ecx) && (ebx <= edi))
{
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actor->pTarget = pAct;
pAct = actor;
}
}
}
}
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if (pAct == nullptr)
{
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pAct = insertActor(nSector, 401);
auto pSprite = &pAct->s();
pSprite->x = (var_24 + esi) / 2;
pSprite->y = (ecx + edi) / 2;
pSprite->z = sector[nSector].floorz;
pSprite->cstat = 0x8000;
pSprite->owner = -1;
pSprite->lotag = 0;
pSprite->hitag = 0;
}
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return pAct->GetSpriteIndex();
}
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int BuildElevF(int nChannel, int nSector, int nWallSprite, int arg_4, int arg_5, int nCount, ...)
{
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auto ElevCount = Elevator.Reserve(1);
Elevator[ElevCount].field_0 = 2;
Elevator[ElevCount].field_6 = arg_4;
Elevator[ElevCount].field_32 = -1;
Elevator[ElevCount].field_A = arg_5;
Elevator[ElevCount].nChannel = nChannel;
Elevator[ElevCount].nSector = nSector;
Elevator[ElevCount].nCountZOffsets = 0;
Elevator[ElevCount].nCurZOffset = 0;
Elevator[ElevCount].field_36 = 0;
if (nWallSprite < 0) {
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nWallSprite = BuildWallSprite(nSector)->GetSpriteIndex();
}
Elevator[ElevCount].nSprite = nWallSprite;
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va_list zlist;
va_start(zlist, nCount);
while (1)
{
if (Elevator[ElevCount].nCountZOffsets >= nCount) {
return ElevCount;
}
int nVal = Elevator[ElevCount].nCountZOffsets;
Elevator[ElevCount].nCountZOffsets++;
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Elevator[ElevCount].zOffsets[nVal] = va_arg(zlist, int);
}
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va_end(zlist);
return ElevCount;
}
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int BuildElevC(int arg1, int nChannel, int nSector, int nWallSprite, int arg5, int arg6, int nCount, ...)
{
int edi = arg5;
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auto ElevCount = Elevator.Reserve(1);
Elevator[ElevCount].field_0 = arg1;
if (arg1 & 4)
{
edi = arg5 / 2;
}
Elevator[ElevCount].field_6 = edi;
Elevator[ElevCount].nCountZOffsets = 0;
Elevator[ElevCount].field_36 = 0;
Elevator[ElevCount].nCurZOffset = 0;
Elevator[ElevCount].field_A = arg6;
Elevator[ElevCount].field_32 = -1;
Elevator[ElevCount].nChannel = nChannel;
Elevator[ElevCount].nSector = nSector;
if (nWallSprite < 0) {
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nWallSprite = BuildWallSprite(nSector)->GetSpriteIndex();
}
Elevator[ElevCount].nSprite = nWallSprite;
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va_list zlist;
va_start(zlist, nCount);
while (1)
{
if (Elevator[ElevCount].nCountZOffsets >= nCount) {
return ElevCount;
}
int nVal = Elevator[ElevCount].nCountZOffsets;
Elevator[ElevCount].nCountZOffsets++;
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Elevator[ElevCount].zOffsets[nVal] = va_arg(zlist, int);
}
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va_end(zlist);
return ElevCount;
}
// TODO - tidy me up
// RENAME param A - not always Z
// Confirmed 100% correct with original .exe
int LongSeek(int* pZVal, int a2, int a3, int a4)
{
int v4; // edx@1
int v5; // ebx@2
v4 = a2 - *pZVal;
if (v4 < 0)
{
v5 = -a3;
if (v5 > v4)
v4 = v5;
(*pZVal) += v4;
}
if (v4 > 0)
{
if (a4 < v4)
v4 = a4;
(*pZVal) += v4;
}
return v4;
}
// done
int CheckSectorSprites(short nSector, int nVal)
{
int b = 0;
if (nVal)
{
int nZDiff = sector[nSector].floorz - sector[nSector].ceilingz;
ExhumedSectIterator it(nSector);
while (auto pActor= it.Next())
{
auto pSprite = &pActor->s();
if ((pSprite->cstat & 0x101) && (nZDiff < GetActorHeight(pActor)))
{
if (nVal != 1) {
return 1;
}
b = 1;
runlist_DamageEnemy(pActor->GetSpriteIndex(), -1, 5);
if (pSprite->statnum == 100 && PlayerList[GetPlayerFromActor(pActor)].nHealth <= 0)
{
PlayFXAtXYZ(StaticSound[kSoundJonFDie],
pSprite->x,
pSprite->y,
pSprite->z,
pSprite->sectnum, CHANF_NONE, 0x4000);
}
}
}
}
else
{
ExhumedSectIterator it(nSector);
while (auto pActor = it.Next())
{
if (pActor->s().cstat & 0x101) {
return 1;
}
}
b = 0;
}
return b;
}
// done
void MoveSectorSprites(int nSector, int z)
{
int newz = sector[nSector].floorz;
int oldz = newz - z;
int minz = std::min(newz, oldz);
int maxz = std::max(newz, oldz);
ExhumedSectIterator it(nSector);
while (auto pActor = it.Next())
{
auto pSprite = &pActor->s();
int z = pSprite->z;
if ((pSprite->statnum != 200 && z >= minz && z <= maxz) || pSprite->statnum >= 900)
{
pSprite->z = newz;
}
}
}
void StartElevSound(short nSprite, int nVal)
{
short nSound;
if (nVal & 2) {
nSound = nElevSound;
}
else {
nSound = nStoneSound;
}
D3PlayFX(StaticSound[nSound], nSprite);
}
void AIElev::ProcessChannel(RunListEvent* ev)
{
int nRun = ev->nRun;
short nElev = RunData[nRun].nObjIndex;
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assert(nElev >= 0 && nElev < (int)Elevator.Size());
short nChannel = Elevator[nElev].nChannel;
short var_18 = Elevator[nElev].field_0;
assert(nChannel >= 0 && nChannel < kMaxChannels);
// short ax = var_18 & 8;
short dx = sRunChannels[nChannel].c;
int edi = 999; // FIXME CHECKME - this isn't default set to anything in the ASM that I can see - if ax is 0 and var_24 is 0, this will never be set to a known value otherwise!
if (var_18 & 0x8)
{
if (dx) {
edi = 1;
}
else {
edi = 0;
}
}
else
{
// loc_20D48:
if (var_18 & 0x10) // was var_24
{
if (Elevator[nElev].field_32 < 0)
{
Elevator[nElev].field_32 = runlist_AddRunRec(NewRun, &RunData[nRun]);
StartElevSound(Elevator[nElev].nSprite, var_18);
edi = 1;
}
}
else
{
if (dx < 0) {
edi = 0;
}
else
{
if (dx == Elevator[nElev].nCurZOffset || dx >= Elevator[nElev].nCountZOffsets)
{
Elevator[nElev].field_36 = dx;
edi = 1;
}
else
{
Elevator[nElev].nCurZOffset = sRunChannels[nChannel].c;
edi = 1;
}
}
}
}
assert(edi != 999);
// loc_20DF9:
if (edi)
{
if (Elevator[nElev].field_32 < 0)
{
Elevator[nElev].field_32 = runlist_AddRunRec(NewRun, &RunData[nRun]);
StartElevSound(Elevator[nElev].nSprite, var_18);
}
}
else
{
//loc_20E4E:
if (Elevator[nElev].field_32 >= 0)
{
runlist_SubRunRec(Elevator[nElev].field_32);
Elevator[nElev].field_32 = -1;
}
}
}
void AIElev::Tick(RunListEvent* ev)
{
int nRun = ev->nRun;
short nElev = RunData[nRun].nObjIndex;
assert(nElev >= 0 && nElev < (int)Elevator.Size());
short nChannel = Elevator[nElev].nChannel;
short var_18 = Elevator[nElev].field_0;
assert(nChannel >= 0 && nChannel < kMaxChannels);
short nSector = Elevator[nElev].nSector;
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auto pElevSpr = &exhumedActors[Elevator[nElev].nSprite];
int ebp = 0; // initialise to *something*
if (var_18 & 0x2)
{
int nZOffset = Elevator[nElev].nCurZOffset;
int nZVal = Elevator[nElev].zOffsets[nZOffset];
short nSectorB = nSector;
StartInterpolation(nSector, Interp_Sect_Floorz);
int nVal = LongSeek((int*)&sector[nSector].floorz, nZVal, Elevator[nElev].field_6, Elevator[nElev].field_A);
ebp = nVal;
if (!nVal)
{
if (var_18 & 0x10)
{
Elevator[nElev].nCurZOffset ^= 1;
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StartElevSound(pElevSpr->GetSpriteIndex(), var_18);
}
else
{
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StopActorSound(pElevSpr);
runlist_SubRunRec(nRun);
Elevator[nElev].field_32 = -1;
runlist_ReadyChannel(nChannel);
D3PlayFX(StaticSound[nStopSound], Elevator[nElev].nSprite);
}
}
else
{
assert(nSector == nSectorB);
MoveSectorSprites(nSector, nVal);
if (nVal < 0 && CheckSectorSprites(nSector, 2))
{
runlist_ChangeChannel(nChannel, sRunChannels[nChannel].c == 0);
return;
}
}
}
else
{
// loc_20FC3:
int ceilZ = sector[nSector].ceilingz;
sectortype* cursect = &sector[nSector];
int nZOffset = Elevator[nElev].nCurZOffset;
int zVal = Elevator[nElev].zOffsets[nZOffset];
StartInterpolation(nSector, Interp_Sect_Ceilingz);
int nVal = LongSeek(&ceilZ, zVal, Elevator[nElev].field_6, Elevator[nElev].field_A);
ebp = nVal;
if (!nVal)
{
if (var_18 & 0x10)
{
Elevator[nElev].nCurZOffset ^= 1;
StartElevSound(Elevator[nElev].nSprite, var_18);
}
else
{
runlist_SubRunRec(nRun);
Elevator[nElev].field_32 = -1;
StopSpriteSound(Elevator[nElev].nSprite);
D3PlayFX(StaticSound[nStopSound], Elevator[nElev].nSprite);
runlist_ReadyChannel(nChannel);
}
return;
}
else if (nVal > 0)
{
if (ceilZ == zVal)
{
if (var_18 & 0x4) {
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SetQuake(pElevSpr, 30);
}
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auto sp = &pElevSpr->s();
PlayFXAtXYZ(StaticSound[kSound26], sp->x, sp->y, sp->z, sp->sectnum);
}
if (var_18 & 0x4)
{
if (CheckSectorSprites(nSector, 1)) {
return;
}
}
else
{
if (CheckSectorSprites(nSector, 0))
{
runlist_ChangeChannel(nChannel, sRunChannels[nChannel].c == 0);
return;
}
}
}
StartInterpolation(nSector, Interp_Sect_Ceilingz);
cursect->ceilingz = ceilZ;
}
// maybe this doesn't go here?
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while (pElevSpr)
{
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pElevSpr->s().z += ebp;
pElevSpr = pElevSpr->pTarget;
}
}
void FuncElev(int nObject, int nMessage, int nDamage, int nRun)
{
AIElev ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
// done
void InitWallFace()
{
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WallFace.Clear();
}
int BuildWallFace(short nChannel, short nWall, int nCount, ...)
{
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auto WallFaceCount = WallFace.Reserve(1);
WallFace[WallFaceCount].field_4 = 0;
WallFace[WallFaceCount].nWall = nWall;
WallFace[WallFaceCount].nChannel = nChannel;
if (nCount > 8) {
nCount = 8;
}
2019-08-31 10:36:26 +00:00
va_list piclist;
va_start(piclist, nCount);
while (WallFace[WallFaceCount].field_4 < nCount)
{
int i = WallFace[WallFaceCount].field_4;
WallFace[WallFaceCount].field_4++;
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WallFace[WallFaceCount].field_6[i] = (short)va_arg(piclist, int);
}
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va_end(piclist);
return WallFaceCount;
}
void AIWallFace::ProcessChannel(RunListEvent* ev)
{
int nWallFace = RunData[ev->nRun].nObjIndex;
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assert(nWallFace >= 0 && nWallFace < (int)WallFace.Size());
short nChannel = WallFace[nWallFace].nChannel;
short si = sRunChannels[nChannel].c;
if ((si <= WallFace[nWallFace].field_4) && (si >= 0))
{
wall[WallFace[nWallFace].nWall].picnum = WallFace[nWallFace].field_6[si];
}
}
void FuncWallFace(int nObject, int nMessage, int nDamage, int nRun)
{
AIWallFace ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
// done
void InitPoint()
{
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PointList.Clear();
}
// done
int GrabPoint()
{
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return PointList.Reserve(1);
}
// done
void InitSlide()
{
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SlideData.Clear();
}
int IdentifySector(int nVal)
{
for (int i = 0; i < numsectors; i++)
{
for (int j = 0; ; j++)
{
if (j < sector[i].wallnum)
{
int nWall = sector[i].wallptr;
if (nWall + j == nVal)
return i;
}
else {
break;
}
}
}
return -1;
}
int BuildSlide(int nChannel, int nStartWall, int nWall1, int ecx, int nWall2, int nWall3, int nWall4)
{
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auto nSlide = SlideData.Reserve(1);
short nSector = IdentifySector(nStartWall);
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SlideData[nSlide].field_4a = -1;
SlideData[nSlide].nChannel = nChannel;
SlideData[nSlide].field_2a = -1;
int nPoint = GrabPoint();
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SlideData[nSlide].field_2a = nPoint;
PointList[nPoint].field_E = -1;
PointList[nPoint].field_0 = nSector;
short startwall = sector[nSector].wallptr;
short endwall = startwall + sector[nSector].wallnum;
for (int nWall = startwall; nWall < endwall; nWall++)
{
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short ax = SlideData[nSlide].field_2a;
if (ax >= 0)
{
while (ax >= 0)
{
if (wall[nWall].nextsector == PointList[ax].field_0) {
break;
}
ax = PointList[ax].field_E;
}
}
else
{
if (wall[nWall].nextsector >= 0)
{
nPoint = GrabPoint();
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PointList[nPoint].field_E = SlideData[nSlide].field_2a;
PointList[nPoint].field_0 = wall[nWall].nextsector;
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SlideData[nSlide].field_2a = nPoint;
}
}
}
SlideData[nSlide].field_0 = nStartWall;
SlideData[nSlide].field_4 = nWall1;
SlideData[nSlide].field_8 = nWall2;
SlideData[nSlide].field_C = nWall3;
SlideData[nSlide].x1 = wall[nStartWall].x;
SlideData[nSlide].y1 = wall[nStartWall].y;
SlideData[nSlide].x2 = wall[nWall2].x;
SlideData[nSlide].y2 = wall[nWall2].y;
SlideData[nSlide].field_20 = wall[nWall1].x;
SlideData[nSlide].field_24 = wall[nWall1].y;
SlideData[nSlide].field_28 = wall[nWall3].x;
SlideData[nSlide].field_2C = wall[nWall3].y;
SlideData[nSlide].field_30 = wall[ecx].x;
SlideData[nSlide].field_34 = wall[ecx].y;
SlideData[nSlide].field_38 = wall[nWall4].x;
SlideData[nSlide].field_3C = wall[nWall4].y;
StartInterpolation(nStartWall, Interp_Wall_X);
StartInterpolation(nStartWall, Interp_Wall_Y);
StartInterpolation(nWall1, Interp_Wall_X);
StartInterpolation(nWall1, Interp_Wall_Y);
StartInterpolation(nWall2, Interp_Wall_X);
StartInterpolation(nWall2, Interp_Wall_Y);
StartInterpolation(nWall3, Interp_Wall_X);
StartInterpolation(nWall3, Interp_Wall_Y);
int nSprite = insertsprite(nSector, 899);
auto pSprite = &sprite[nSprite];
SlideData[nSlide].nSprite = nSprite;
pSprite->cstat = 0x8000;
pSprite->x = wall[nStartWall].x;
pSprite->y = wall[nStartWall].y;
pSprite->z = sector[nSector].floorz;
pSprite->backuppos();
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SlideData[nSlide].field_8a = 0;
return nSlide;
}
void AISlide::ProcessChannel(RunListEvent* ev)
{
int nRun = ev->nRun;
int nSlide = RunData[nRun].nObjIndex;
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assert(nSlide >= 0 && nSlide < (int)SlideData.Size());
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short nChannel = SlideData[nSlide].nChannel;
if (SlideData[nSlide].field_4a >= 0)
{
runlist_SubRunRec(SlideData[nSlide].field_4a);
SlideData[nSlide].field_4a = -1;
}
if (sRunChannels[nChannel].c && sRunChannels[nChannel].c != 1) {
return;
}
SlideData[nSlide].field_4a = runlist_AddRunRec(NewRun, &RunData[nRun]);
if (SlideData[nSlide].field_8a != sRunChannels[nChannel].c)
{
D3PlayFX(StaticSound[kSound23], SlideData[nSlide].nSprite);
SlideData[nSlide].field_8a = sRunChannels[nChannel].c;
}
}
void AISlide::Tick(RunListEvent* ev)
{
int nRun = ev->nRun;
int nSlide = RunData[nRun].nObjIndex;
assert(nSlide >= 0 && nSlide < (int)SlideData.Size());
short nChannel = SlideData[nSlide].nChannel;
int ebp = 0;
short cx = sRunChannels[nChannel].c;
int clipmask = ebp + 1; // RENAME
if (cx == 1)
{
short nWall = SlideData[nSlide].field_4;
int x = wall[nWall].x;
int y = wall[nWall].y;
int nSeekA = LongSeek(&x, SlideData[nSlide].field_30, 20, 20);
int var_34 = nSeekA;
int var_20 = nSeekA;
int nSeekB = LongSeek(&y, SlideData[nSlide].field_34, 20, 20);
int var_2C = nSeekB;
int var_24 = nSeekB;
dragpoint(SlideData[nSlide].field_4, x, y, 0);
movesprite(SlideData[nSlide].nSprite, var_34 << 14, var_2C << 14, 0, 0, 0, CLIPMASK1);
if (var_34 == 0)
{
if (var_2C == 0)
{
ebp = clipmask;
}
}
nWall = SlideData[nSlide].field_0;
y = wall[nWall].y + var_24;
x = wall[nWall].x + var_20;
dragpoint(SlideData[nSlide].field_0, x, y, 0);
nWall = SlideData[nSlide].field_C;
x = wall[nWall].x;
y = wall[nWall].y;
int nSeekC = LongSeek(&x, SlideData[nSlide].field_38, 20, 20);
int var_30 = nSeekC;
var_20 = nSeekC;
int nSeekD = LongSeek(&y, SlideData[nSlide].field_3C, 20, 20);
int edi = nSeekD;
var_24 = nSeekD;
dragpoint(SlideData[nSlide].field_C, x, y, 0);
if (var_30 == 0 && edi == 0) {
ebp++;
}
nWall = SlideData[nSlide].field_8;
x = wall[nWall].x + var_20;
y = wall[nWall].y + var_24;
dragpoint(SlideData[nSlide].field_8, x, y, 0);
}
else if (cx == 0) // right branch
{
short nWall = SlideData[nSlide].field_0;
int x = wall[nWall].x;
int y = wall[nWall].y;
int nSeekA = LongSeek(&x, SlideData[nSlide].x1, 20, 20);
int edi = nSeekA;
int var_1C = nSeekA;
int nSeekB = LongSeek(&y, SlideData[nSlide].y1, 20, 20);
int ecx = nSeekB;
int var_28 = nSeekB;
dragpoint(SlideData[nSlide].field_0, x, y, 0);
if (edi == 0 && ecx == 0) {
ebp = clipmask;
}
nWall = SlideData[nSlide].field_4;
y = wall[nWall].y + var_28;
x = wall[nWall].x + var_1C;
dragpoint(SlideData[nSlide].field_4, x, y, 0);
nWall = SlideData[nSlide].field_8;
x = wall[nWall].x;
y = wall[nWall].y;
int nSeekC = LongSeek(&x, SlideData[nSlide].x2, 20, 20);
edi = nSeekC;
var_1C = nSeekC;
int nSeekD = LongSeek(&y, SlideData[nSlide].y2, 20, 20);
ecx = nSeekD;
var_28 = nSeekD;
dragpoint(SlideData[nSlide].field_8, x, y, 0);
if (edi == 0 && ecx == 0) {
ebp++;
}
nWall = SlideData[nSlide].field_C;
y = wall[nWall].y + var_28;
x = wall[nWall].x + var_1C;
dragpoint(SlideData[nSlide].field_C, x, y, 0);
}
// loc_21A51:
if (ebp >= 2)
{
runlist_SubRunRec(SlideData[nSlide].field_4a);
SlideData[nSlide].field_4a = -1;
D3PlayFX(StaticSound[nStopSound], SlideData[nSlide].nSprite);
runlist_ReadyChannel(nChannel);
}
}
void FuncSlide(int nObject, int nMessage, int nDamage, int nRun)
{
AISlide ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
int BuildTrap(int nSprite, int edx, int ebx, int ecx)
{
auto pSprite = &sprite[nSprite];
int var_14 = edx;
int var_18 = ebx;
int var_10 = ecx;
2020-11-29 23:49:25 +00:00
int nTrap = sTrap.Reserve(1);
changespritestat(nSprite, 0);
pSprite->cstat = 0x8000;
pSprite->xvel = 0;
pSprite->yvel = 0;
pSprite->zvel = 0;
pSprite->extra = -1;
pSprite->lotag = runlist_HeadRun() + 1;
pSprite->hitag = runlist_AddRunRec(NewRun, nTrap, 0x1F0000);
pSprite->owner = runlist_AddRunRec(pSprite->lotag - 1, nTrap, 0x1F0000);
// GrabTimeSlot(3);
sTrap[nTrap].nSprite = nSprite;
sTrap[nTrap].nType = (var_14 == 0) + 14;
sTrap[nTrap].field_0 = -1;
2020-11-29 23:49:25 +00:00
sTrap[nTrap].nTrapInterval = 64 - (2 * var_10);
if (sTrap[nTrap].nTrapInterval < 5) {
sTrap[nTrap].nTrapInterval = 5;
}
sTrap[nTrap].field_C = 0;
sTrap[nTrap].field_A = 0;
if (var_18 == -1) {
return nTrap;
}
sTrap[nTrap].field_6 = -1;
sTrap[nTrap].field_8 = -1;
short nSector = pSprite->sectnum;
short nWall = sector[nSector].wallptr;
int i = 0;
while (1)
{
if (sector[nSector].wallnum >= i) {
return nTrap;
}
if (var_18 == wall[nWall].hitag)
{
if (sTrap[nTrap].field_6 != -1)
{
sTrap[nTrap].field_8 = nWall;
sTrap[nTrap].field_C = wall[nWall].picnum;
return nTrap;
}
else
{
sTrap[nTrap].field_6 = nWall;
sTrap[nTrap].field_A = wall[nWall].picnum;
}
}
ecx++;
nWall++;
}
pSprite->backuppos();
}
void AITrap::ProcessChannel(RunListEvent* ev)
{
short nChannel = ev->nParam & 0x3FFF;
short nTrap = RunData[ev->nRun].nObjIndex;
if (sRunChannels[nChannel].c > 0)
{
sTrap[nTrap].field_0 = 12;
}
else
{
sTrap[nTrap].field_0 = -1;
}
}
void AITrap::Tick(RunListEvent* ev)
{
short nTrap = RunData[ev->nRun].nObjIndex;
short nSprite = sTrap[nTrap].nSprite;
auto pSprite = &sprite[nSprite];
if (sTrap[nTrap].field_0 >= 0)
{
sTrap[nTrap].field_0--;
if (sTrap[nTrap].field_0 > 10) {
return;
}
short nType = sTrap[nTrap].nType;
if (sTrap[nTrap].field_0 == 0)
{
sTrap[nTrap].field_0 = sTrap[nTrap].nTrapInterval;
if (nType == 14)
{
short nWall = sTrap[nTrap].field_6;
if (nWall > -1)
{
wall[nWall].picnum = sTrap[nTrap].field_A;
}
nWall = sTrap[nTrap].field_8;
if (nWall > -1)
{
wall[nWall].picnum = sTrap[nTrap].field_C;
}
}
}
else
{
// loc_21D92:
if (sTrap[nTrap].field_0 != 5) {
return;
}
2021-10-19 22:26:26 +00:00
auto pBullet = BuildBullet(&exhumedActors[nSprite], nType, 0, pSprite->ang, nullptr, 1);
if (pBullet)
{
if (nType == 15)
{
2021-10-19 22:26:26 +00:00
pBullet->s().ang = (pBullet->s().ang - 512) & kAngleMask;
D3PlayFX(StaticSound[kSound32], pBullet);
}
else
{
2021-10-19 22:26:26 +00:00
pBullet->s().clipdist = 50;
short nWall = sTrap[nTrap].field_6;
if (nWall > -1)
{
wall[nWall].picnum = sTrap[nTrap].field_A + 1;
}
nWall = sTrap[nTrap].field_8;
if (nWall > -1)
{
wall[nWall].picnum = sTrap[nTrap].field_C + 1;
}
2021-10-19 22:26:26 +00:00
D3PlayFX(StaticSound[kSound36], pBullet);
}
}
}
}
}
void FuncTrap(int nObject, int nMessage, int nDamage, int nRun)
{
AITrap ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
int BuildArrow(int nSprite, int nVal)
{
return BuildTrap(nSprite, 0, -1, nVal);
}
int BuildFireBall(int nSprite, int a, int b)
{
return BuildTrap(nSprite, 1, a, b);
}
int BuildSpark(int nSprite, int nVal)
{
auto pSprite = &sprite[nSprite];
int var_14 = insertsprite(pSprite->sectnum, 0);
if (var_14 < 0) {
return -1;
}
auto spr = &sprite[var_14];
assert(var_14 < kMaxSprites);
spr->x = pSprite->x;
spr->y = pSprite->y;
2020-10-14 22:10:37 +00:00
spr->cstat = 0;
spr->shade = -127;
spr->pal = 1;
spr->xoffset = 0;
spr->yoffset = 0;
spr->xrepeat = 50;
spr->yrepeat = 50;
if (nVal >= 2)
{
2020-10-14 22:10:37 +00:00
spr->picnum = kEnergy2;
nSmokeSparks++;
if (nVal == 3)
{
2020-10-14 22:10:37 +00:00
spr->xrepeat = 120;
spr->yrepeat = 120;
}
else
{
spr->xrepeat = pSprite->xrepeat + 15;
spr->yrepeat = pSprite->xrepeat + 15;
}
}
else
{
int nAngle = (pSprite->ang + 256) - RandomSize(9);
if (nVal)
{
spr->xvel = bcos(nAngle, -5);
spr->yvel = bsin(nAngle, -5);
}
else
{
spr->xvel = bcos(nAngle, -6);
spr->yvel = bsin(nAngle, -6);
}
2020-10-14 22:10:37 +00:00
spr->zvel = -(RandomSize(4) << 7);
spr->picnum = kTile985 + nVal;
}
spr->z = pSprite->z;
2020-10-14 22:10:37 +00:00
spr->lotag = runlist_HeadRun() + 1;
spr->clipdist = 1;
spr->hitag = 0;
spr->backuppos();
// GrabTimeSlot(3);
2020-10-14 22:10:37 +00:00
spr->extra = -1;
spr->owner = runlist_AddRunRec(spr->lotag - 1, var_14, 0x260000);
spr->hitag = runlist_AddRunRec(NewRun, var_14, 0x260000);
return var_14;
}
void AISpark::Tick(RunListEvent* ev)
{
int nSprite = RunData[ev->nRun].nObjIndex;
auto pSprite = &sprite[nSprite];
assert(nSprite >= 0 && nSprite < kMaxSprites);
pSprite->shade += 3;
pSprite->xrepeat -= 2;
if (pSprite->xrepeat >= 4 && pSprite->shade <= 100)
{
pSprite->yrepeat -= 2;
// calling BuildSpark() with 2nd parameter as '1' will set kTile986
if (pSprite->picnum == kTile986 && (pSprite->xrepeat & 2))
{
BuildSpark(nSprite, 2);
}
if (pSprite->picnum >= kTile3000) {
return;
}
pSprite->zvel += 128;
int nMov = movesprite(nSprite, pSprite->xvel << 12, pSprite->yvel << 12, pSprite->zvel, 2560, -2560, CLIPMASK1);
if (!nMov) {
return;
}
if (pSprite->zvel <= 0) {
return;
}
}
pSprite->xvel = 0;
pSprite->yvel = 0;
pSprite->zvel = 0;
if (pSprite->picnum > kTile3000) {
nSmokeSparks--;
}
runlist_DoSubRunRec(pSprite->owner);
runlist_FreeRun(pSprite->lotag - 1);
runlist_SubRunRec(pSprite->hitag);
mydeletesprite(nSprite);
}
void FuncSpark(int nObject, int nMessage, int nDamage, int nRun)
{
AISpark ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
void DimLights()
{
static short word_96786 = 0;
word_96786 = word_96786 == 0;
if (word_96786 == 0)
return;
for (int i = 0; i < numsectors; i++)
{
if (sector[i].ceilingshade < 100)
sector[i].ceilingshade++;
if (sector[i].floorshade < 100)
sector[i].floorshade++;
short startwall = sector[i].wallptr;
short endwall = startwall + sector[i].wallnum;
for (int nWall = startwall; nWall < endwall; nWall++)
{
if (wall[nWall].shade < 100)
wall[nWall].shade++;
}
}
}
void DoFinale()
{
static int dword_96788 = 0;
static int nextstage = 0;
if (!lFinaleStart)
return;
dword_96788++;
if (dword_96788 < 90)
{
if (!(dword_96788 & 2))
{
int nAng = RandomSize(11);
sprite[nFinaleSpr].ang = nAng;
BuildSpark(nFinaleSpr, 1);
}
if (!RandomSize(2))
{
2019-09-21 15:47:55 +00:00
PlayFX2(StaticSound[kSound78] | 0x2000, nFinaleSpr);
for (int i = 0; i < nTotalPlayers; i++) {
nQuake[i] = 1280;
}
}
}
else
{
DimLights();
if (nDronePitch <= -2400)
{
if (nFinaleStage < 2)
{
if (nFinaleStage == 1)
{
StopLocalSound();
PlayLocalSound(StaticSound[kSound76], 0);
nextstage = PlayClock + 120;
nFinaleStage++;
}
}
else if (nFinaleStage <= 2)
{
if (PlayClock >= nextstage)
{
PlayLocalSound(StaticSound[kSound77], 0);
nFinaleStage++;
nextstage = PlayClock + 360;
}
}
else if (nFinaleStage == 3 && PlayClock >= nextstage)
{
LevelFinished();
}
}
else
{
nDronePitch -= 128;
BendAmbientSound();
nFinaleStage = 1;
}
}
}
int BuildEnergyBlock(short nSector)
{
short startwall = sector[nSector].wallptr;
short nWalls = sector[nSector].wallnum;
int x = 0;
int y = 0;
for (int i = 0; i < nWalls; i++)
{
x += wall[startwall + i].x;
y += wall[startwall + i].y;
wall[startwall + i].picnum = kClockSymbol16;
wall[startwall + i].pal = 0;
wall[startwall + i].shade = 50;
}
int xAvg = x / nWalls;
int yAvg = y / nWalls;
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int const nSprite = insertsprite(nSector, 406);
auto spr = &sprite[nSprite];
short nextsector = wall[startwall].nextsector;
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spr->x = xAvg;
spr->y = yAvg;
sector[nSector].extra = nSprite;
// GrabTimeSlot(3);
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spr->z = sector[nextsector].floorz;
// CHECKME - name of this variable?
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int nRepeat = (spr->z - sector[nSector].floorz) >> 8;
if (nRepeat > 255) {
nRepeat = 255;
}
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spr->xrepeat = nRepeat;
spr->cstat = 0x8000;
spr->xvel = 0;
spr->yvel = 0;
spr->zvel = 0;
spr->extra = -1;
spr->lotag = runlist_HeadRun() + 1;
spr->hitag = 0;
spr->owner = runlist_AddRunRec(spr->lotag - 1, nSprite, 0x250000);
spr->backuppos();
nEnergyBlocks++;
return nSprite | 0x250000;
}
// TODO - tidy
void KillCreatures()
{
signed int v0;
signed int v1;
v0 = 99;
v1 = 99;
while (1)
{
if (v0 != 100)
{
ExhumedStatIterator it(v1);
while (auto i = it.Next())
{
runlist_DamageEnemy(i->GetSpriteIndex(), -1, 1600);
}
}
++v0;
++v1;
if (v0 > 107) {
return;
}
}
}
void ExplodeEnergyBlock(int nSprite)
{
auto pSprite = &sprite[nSprite];
short nSector = pSprite->sectnum;
short startwall = sector[nSector].wallptr;
short nWalls = sector[nSector].wallnum;
int i;
for (i = 0; i < nWalls; i++)
{
short nextwall = wall[startwall + i].nextwall;
if (wall[nextwall].pal >= 4) {
wall[nextwall].pal = 7;
}
else {
wall[nextwall].pal = 0;
}
wall[nextwall].shade = 50;
}
if (sector[nSector].floorpal >= 4) {
sector[nSector].floorpal = 7;
}
else {
sector[nSector].floorpal = 0;
}
sector[nSector].floorshade = 50;
sector[nSector].extra = -1;
sector[nSector].floorz = pSprite->z;
pSprite->z = (pSprite->z + sector[nSector].floorz) / 2;
BuildSpark(nSprite, 3);
pSprite->cstat = 0;
pSprite->xrepeat = 100;
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PlayFX2(StaticSound[kSound78], nSprite);
pSprite->xrepeat = 0;
nEnergyTowers--;
for (i = 0; i < 20; i++)
{
pSprite->ang = RandomSize(11);
BuildSpark(nSprite, 1); // shoot out blue orbs
}
TintPalette(64, 64, 64);
if (nEnergyTowers == 1)
{
runlist_ChangeChannel(nEnergyChan, nEnergyTowers);
StatusMessage(1000, "TAKE OUT THE CONTROL CENTER!");
}
else if (nEnergyTowers != 0)
{
StatusMessage(500, "%d TOWERS REMAINING", nEnergyTowers);
}
else
{
nFinaleSpr = nSprite;
lFinaleStart = PlayClock;
if (!lFinaleStart) {
lFinaleStart = lFinaleStart + 1;
}
for (i = 0; i < numsectors; i++)
{
if (sector[i].ceilingpal == 1) {
sector[i].ceilingpal = 0;
}
if (sector[i].floorpal == 1) {
sector[i].floorpal = 0;
}
short startwall = sector[i].wallptr;
short endwall = startwall + sector[i].wallnum;
for (int nWall = startwall; nWall < endwall; nWall++)
{
if (wall[nWall].pal == 1) {
wall[nWall].pal = 0;
}
}
}
KillCreatures();
}
changespritestat(nSprite, 0);
}
void AIEnergyBlock::Damage(RunListEvent* ev)
{
int const nSprite = RunData[ev->nRun].nObjIndex;
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auto spr = &sprite[nSprite];
ev->nDamage >>= 2;
if (ev->nDamage <= 0) {
return;
}
if (ev->nDamage < spr->xrepeat)
{
spr->xrepeat -= ev->nDamage;
int nSprite2 = insertsprite(lasthitsect, 0);
auto pSprite2 = &sprite[nSprite2];
pSprite2->ang = ev->nParam;
pSprite2->x = lasthitx;
pSprite2->y = lasthity;
pSprite2->z = lasthitz;
BuildSpark(nSprite2, 0); // shoot out blue orb when damaged
mydeletesprite(nSprite2);
}
else
{
spr->xrepeat = 0; // using xrepeat to store health
ExplodeEnergyBlock(nSprite);
}
}
void AIEnergyBlock::RadialDamage(RunListEvent* ev)
{
int const nSprite = RunData[ev->nRun].nObjIndex;
auto spr = &sprite[nSprite];
short nSector = spr->sectnum;
if (sector[nSector].extra == -1) {
return;
}
int nFloorZ = sector[nSector].floorz;
sector[nSector].floorz = spr->z;
spr->z -= 256;
ev->nDamage = runlist_CheckRadialDamage(nSprite);
// restore previous values
sector[nSector].floorz = nFloorZ;
spr->z += 256;
if (ev->nDamage <= 0) {
return;
}
// fall through to case 0x80000
Damage(ev);
}
void FuncEnergyBlock(int nObject, int nMessage, int nDamage, int nRun)
{
AIEnergyBlock ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
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int BuildObject(int const nSprite, int nOjectType, int nHitag)
{
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auto spr = &sprite[nSprite];
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auto nObject = ObjectList.Reserve(1);
ObjectList[nObject] = {};
changespritestat(nSprite, ObjectStatnum[nOjectType]);
// 0x7FFD to ensure set as blocking ('B' and 'H') sprite and also disable translucency and set not invisible
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spr->cstat = (spr->cstat | 0x101) & 0x7FFD;
spr->xvel = 0;
spr->yvel = 0;
spr->zvel = 0;
spr->extra = -1;
spr->lotag = runlist_HeadRun() + 1;
spr->hitag = 0;
spr->owner = runlist_AddRunRec(spr->lotag - 1, nObject, 0x170000);
// GrabTimeSlot(3);
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if (spr->statnum == kStatDestructibleSprite) {
ObjectList[nObject].nHealth = 4;
}
else {
ObjectList[nObject].nHealth = 120;
}
ObjectList[nObject].nSprite = nSprite;
ObjectList[nObject].field_4 = runlist_AddRunRec(NewRun, nObject, 0x170000);
short nSeq = ObjectSeq[nOjectType];
if (nSeq > -1)
{
ObjectList[nObject].field_8 = SeqOffsets[nSeq];
if (!nOjectType) // if not Explosion Trigger (e.g. Exploding Fire Cauldron)
{
ObjectList[nObject].field_0 = RandomSize(4) % (SeqSize[ObjectList[nObject].field_8] - 1);
}
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int nSprite2 = insertsprite(spr->sectnum, 0);
auto pSprite2 = &sprite[nSprite2];
ObjectList[nObject].field_10 = nSprite2;
pSprite2->cstat = 0x8000;
pSprite2->x = spr->x;
pSprite2->y = spr->y;
pSprite2->z = spr->z;
}
else
{
ObjectList[nObject].field_0 = 0;
ObjectList[nObject].field_8 = -1;
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if (spr->statnum == kStatDestructibleSprite) {
ObjectList[nObject].field_10 = -1;
}
else {
ObjectList[nObject].field_10 = -nHitag;
}
}
spr->backuppos();
return nObject | 0x170000;
}
// in-game destructable wall mounted screen
void ExplodeScreen(short nSprite)
{
auto pSprite = &sprite[nSprite];
pSprite->z -= GetSpriteHeight(nSprite) / 2;
for (int i = 0; i < 30; i++) {
BuildSpark(nSprite, 0); // shoot out blue orbs
}
pSprite->cstat = 0x8000;
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PlayFX2(StaticSound[kSound78], nSprite);
}
void AIObject::Tick(RunListEvent* ev)
{
short nObject = RunData[ev->nRun].nObjIndex;
auto pObject = &ObjectList[nObject];
short nSprite = pObject->nSprite;
auto pSprite = &sprite[nSprite];
short nStat = pSprite->statnum;
short bx = pObject->field_8;
if (nStat == 97 || (!(pSprite->cstat & 0x101))) {
return;
}
if (nStat != kStatExplodeTarget) {
Gravity(nSprite);
}
// do animation
if (bx != -1)
{
pObject->field_0++;
if (pObject->field_0 >= SeqSize[bx]) {
pObject->field_0 = 0;
}
pSprite->picnum = seq_GetSeqPicnum2(bx, pObject->field_0);
}
if (pObject->nHealth >= 0) {
goto FUNCOBJECT_GOTO;
}
pObject->nHealth++;
if (pObject->nHealth)
{
FUNCOBJECT_GOTO:
if (nStat != kStatExplodeTarget)
{
int nMov = movesprite(nSprite, pSprite->xvel << 6, pSprite->yvel << 6, pSprite->zvel, 0, 0, CLIPMASK0);
if (pSprite->statnum == kStatExplodeTrigger) {
pSprite->pal = 1;
}
if (nMov & 0x20000)
{
pSprite->xvel -= pSprite->xvel >> 3;
pSprite->yvel -= pSprite->yvel >> 3;
}
if (((nMov & 0xC000) > 0x8000) && ((nMov & 0xC000) == 0xC000))
{
pSprite->yvel = 0;
pSprite->xvel = 0;
}
}
return;
}
else
{
int var_18;
// red branch
if ((nStat == kStatExplodeTarget) || (pSprite->z < sector[pSprite->sectnum].floorz))
{
var_18 = 36;
}
else
{
var_18 = 34;
}
AddFlash(pSprite->sectnum, pSprite->x, pSprite->y, pSprite->z, 128);
BuildAnim(nullptr, var_18, 0, pSprite->x, pSprite->y, sector[pSprite->sectnum].floorz, pSprite->sectnum, 240, 4);
// int edi = nSprite | 0x4000;
if (nStat == kStatExplodeTrigger)
{
for (int i = 4; i < 8; i++) {
BuildCreatureChunk(nSprite | 0x4000, seq_GetSeqPicnum(kSeqFirePot, (i >> 2) + 1, 0));
}
runlist_RadialDamageEnemy(nSprite, 200, 20);
}
else if (nStat == kStatExplodeTarget)
{
for (int i = 0; i < 8; i++) {
BuildCreatureChunk(nSprite | 0x4000, seq_GetSeqPicnum(kSeqFirePot, (i >> 1) + 3, 0));
}
}
if (!(currentLevel->gameflags & LEVEL_EX_MULTI) || nStat != kStatExplodeTrigger)
{
runlist_SubRunRec(pSprite->owner);
runlist_SubRunRec(pObject->field_4);
mydeletesprite(nSprite);
return;
}
else
{
StartRegenerate(nSprite);
pObject->nHealth = 120;
pSprite->x = sprite[pObject->field_10].x;
pSprite->y = sprite[pObject->field_10].y;
pSprite->z = sprite[pObject->field_10].z;
mychangespritesect(nSprite, sprite[pObject->field_10].sectnum);
return;
}
}
}
void AIObject::Damage(RunListEvent* ev)
{
short nObject = RunData[ev->nRun].nObjIndex;
auto pObject = &ObjectList[nObject];
short nSprite = pObject->nSprite;
auto pSprite = &sprite[nSprite];
short nStat = pSprite->statnum;
short bx = pObject->field_8;
if (nStat >= 150 || pObject->nHealth <= 0) {
return;
}
if (nStat == 98)
{
D3PlayFX((StaticSound[kSound47] | 0x2000) | (RandomSize(2) << 9), nSprite);
return;
}
pObject->nHealth -= (short)ev->nDamage;
if (pObject->nHealth > 0) {
return;
}
if (nStat == kStatDestructibleSprite)
{
ExplodeScreen(nSprite);
}
else
{
pObject->nHealth = -(RandomSize(3) + 1);
}
}
void AIObject::Draw(RunListEvent* ev)
{
short nObject = RunData[ev->nRun].nObjIndex;
auto pObject = &ObjectList[nObject];
short bx = pObject->field_8;
if (bx > -1)
{
seq_PlotSequence(ev->nParam, bx, pObject->field_0, 1);
}
return;
}
void AIObject::RadialDamage(RunListEvent* ev)
{
short nObject = RunData[ev->nRun].nObjIndex;
auto pObject = &ObjectList[nObject];
short nSprite = pObject->nSprite;
auto pSprite = &sprite[nSprite];
short nStat = pSprite->statnum;
if (pObject->nHealth > 0 && pSprite->cstat & 0x101
&& (nStat != kStatExplodeTarget
|| sprite[nRadialSpr].statnum == 201
|| (nRadialBullet != 3 && nRadialBullet > -1)
|| sprite[nRadialSpr].statnum == kStatExplodeTrigger))
{
int nDamage = runlist_CheckRadialDamage(nSprite);
if (nDamage <= 0) {
return;
}
if (pSprite->statnum != kStatAnubisDrum) {
pObject->nHealth -= nDamage;
}
if (pSprite->statnum == kStatExplodeTarget)
{
pSprite->xvel = 0;
pSprite->yvel = 0;
pSprite->zvel = 0;
}
else if (pSprite->statnum != kStatAnubisDrum)
{
pSprite->xvel >>= 1;
pSprite->yvel >>= 1;
pSprite->zvel >>= 1;
}
if (pObject->nHealth > 0) {
return;
}
if (pSprite->statnum == kStatExplodeTarget)
{
pObject->nHealth = -1;
short ax = pObject->field_10;
if (ax < 0 || ObjectList[ax].nHealth <= 0) {
return;
}
ObjectList[ax].nHealth = -1;
}
else if (pSprite->statnum == kStatDestructibleSprite)
{
pObject->nHealth = 0;
ExplodeScreen(nSprite);
}
else
{
pObject->nHealth = -(RandomSize(4) + 1);
}
}
}
void FuncObject(int nObject, int nMessage, int nDamage, int nRun)
{
AIObject ai;
runlist_DispatchEvent(&ai, nObject, nMessage, nDamage, nRun);
}
void BuildDrip(int nSprite)
{
auto pSprite = &sprite[nSprite];
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auto nDrips = sDrip.Reserve(1);
sDrip[nDrips].nSprite = nSprite;
sDrip[nDrips].field_2 = RandomSize(8) + 90;
pSprite->cstat = 0x8000u;
}
void DoDrips()
{
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for (unsigned i = 0; i < sDrip.Size(); i++)
{
sDrip[i].field_2--;
if (sDrip[i].field_2 <= 0)
{
short nSprite = sDrip[i].nSprite;
auto pSprite = &sprite[nSprite];
short nSeqOffset = SeqOffsets[kSeqDrips];
if (!(SectFlag[pSprite->sectnum] & kSectLava)) {
nSeqOffset++;
}
seq_MoveSequence(nSprite, nSeqOffset, RandomSize(2) % SeqSize[nSeqOffset]);
sDrip[i].field_2 = RandomSize(8) + 90;
}
}
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for (unsigned i = 0; i < sBob.Size(); i++)
{
sBob[i].field_2 += 4;
int edx = bsin(sBob[i].field_2 << 3, -4);
short nSector = sBob[i].nSector;
if (sBob[i].field_3)
{
sector[nSector].ceilingz = edx + sBob[i].z;
}
else
{
int nFloorZ = sector[nSector].floorz;
sector[nSector].floorz = edx + sBob[i].z;
MoveSectorSprites(nSector, sector[nSector].floorz - nFloorZ);
}
}
}
void SnapBobs(short nSectorA, short nSectorB)
{
int ecx = -1;
int ebx = ecx;
// int var_14 = nSector;
// int edi = edx;
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for (unsigned i = 0; i < sBob.Size(); i++)
{
int esi = sBob[i].nSector;
if (esi != nSectorA)
{
if (nSectorB != esi)
continue;
esi = ebx;
ecx = i;
}
else
{
esi = ecx;
ebx = i;
}
if (esi != -1) {
break;
}
}
if (ecx <= -1) {
return;
}
if (ebx <= -1) {
return;
}
sBob[ecx].field_2 = sBob[ebx].field_2;
}
void AddSectorBob(int nSector, int nHitag, int bx)
{
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auto nBobs = sBob.Reserve(1);
sBob[nBobs].field_3 = bx;
int z;
if (bx == 0) {
z = sector[nSector].floorz;
}
else {
z = sector[nSector].ceilingz;
}
sBob[nBobs].z = z;
sBob[nBobs].field_2 = nHitag << 4;
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sBob[nBobs].sBobID = nHitag;
sBob[nBobs].nSector = nSector;
StartInterpolation(nSector, bx == 0 ? Interp_Sect_Floorz : Interp_Sect_Ceilingz);
SectFlag[nSector] |= 0x0010;
}
int FindTrail(int nVal)
{
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for (unsigned i = 0; i < sTrail.Size(); i++)
{
if (sTrail[i].field_2 == nVal)
return i;
}
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auto nTrails = sTrail.Reserve(1);
sTrail[nTrails].field_2 = nVal;
sTrail[nTrails].field_0 = -1;
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sTrail[nTrails].field_4 = -1;
return nTrails;
}
// ok ?
void ProcessTrailSprite(int nSprite, int nLotag, int nHitag)
{
auto pSprite = &sprite[nSprite];
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auto nPoint = sTrailPoint.Reserve(1);
sTrailPoint[nPoint].x = pSprite->x;
sTrailPoint[nPoint].y = pSprite->y;
int nTrail = FindTrail(nHitag);
int var_14 = nLotag - 900;
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sTrailPoint[nPoint].nTrailPointVal = var_14;
int field0 = sTrail[nTrail].field_0;
if (field0 == -1)
{
sTrail[nTrail].field_0 = nPoint;
sTrail[nTrail].field_4 = nPoint;
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sTrailPoint[nPoint].nTrailPointNext = -1;
sTrailPoint[nPoint].nTrailPointPrev = -1;
}
else
{
int ecx = -1;
while (field0 != -1)
{
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if (sTrailPoint[field0].nTrailPointVal > var_14)
{
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sTrailPoint[nPoint].nTrailPointPrev = sTrailPoint[field0].nTrailPointPrev;
sTrailPoint[field0].nTrailPointPrev = nPoint;
sTrailPoint[nPoint].nTrailPointNext = field0;
if (field0 == sTrail[nTrail].field_0) {
sTrail[nTrail].field_0 = nPoint;
}
break;
}
ecx = field0;
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field0 = sTrailPoint[field0].nTrailPointNext;
}
if (field0 == -1)
{
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sTrailPoint[ecx].nTrailPointNext = nPoint;
sTrailPoint[nPoint].nTrailPointPrev = ecx;
sTrailPoint[nPoint].nTrailPointNext = -1;
sTrail[nTrail].field_4 = nPoint;
}
}
mydeletesprite(nSprite);
}
// ok?
void AddMovingSector(int nSector, int edx, int ebx, int ecx)
{
CreatePushBlock(nSector);
setsectinterpolate(nSector);
short nTrail = FindTrail(ebx);
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auto nMoveSects = sMoveSect.Reserve(1);
MoveSect* pMoveSect = &sMoveSect[nMoveSects];
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pMoveSect->sMoveDir = 1;
pMoveSect->nTrail = nTrail;
pMoveSect->nTrailPoint = -1;
pMoveSect->field_8 = -1;
pMoveSect->field_6 = ecx;
pMoveSect->field_10 = (edx / 1000) + 1;
pMoveSect->nSector = nSector;
if (ecx & 8)
{
pMoveSect->field_14 = runlist_AllocChannel(ebx % 1000);
}
else
{
pMoveSect->field_14 = -1;
}
sector[nSector].floorstat |= 0x40;
}
void DoMovingSects()
{
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for (unsigned i = 0; i < sMoveSect.Size(); i++)
{
if (sMoveSect[i].nSector == -1) {
continue;
}
if (sMoveSect[i].field_14 != -1 && !sRunChannels[sMoveSect[i].field_14].c) {
continue;
}
short nSector = sMoveSect[i].nSector;
short nBlock = sector[nSector].extra;
BlockInfo* pBlockInfo = &sBlockInfo[nBlock];
if (sMoveSect[i].nTrailPoint == -1)
{
if (sMoveSect[i].field_6 & 0x20)
{
runlist_ChangeChannel(sMoveSect[i].field_14, 0);
}
short ax;
if (sMoveSect[i].field_6 & 0x10)
{
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sMoveSect[i].sMoveDir = -sMoveSect[i].sMoveDir;
if (sMoveSect[i].sMoveDir > 0)
{
ax = sTrail[sMoveSect[i].nTrail].field_0;
}
else
{
ax = sTrail[sMoveSect[i].nTrail].field_4;
}
}
else
{
ax = sTrail[sMoveSect[i].nTrail].field_0;
}
sMoveSect[i].nTrailPoint = ax;
}
short nTrail = sMoveSect[i].nTrailPoint;
// TrailPoint *pTrail = &sTrailPoint[nTrail];
// loc_23872:
int nAngle = GetMyAngle(sTrailPoint[nTrail].x - pBlockInfo->x, sTrailPoint[nTrail].y - pBlockInfo->y);
int nXVel = bcos(nAngle, 4) * sMoveSect[i].field_10;
int nYVel = bsin(nAngle, 4) * sMoveSect[i].field_10;
int ebx = (sTrailPoint[nTrail].x - pBlockInfo->x) << 14;
int eax = nXVel;
if (eax < 0) {
eax = -eax;
}
int edx = eax;
eax = ebx;
int ecx = (sTrailPoint[nTrail].y - pBlockInfo->y) << 14;
if (eax < 0) {
eax = -eax;
}
// loc_238EC:
if (edx <= eax)
{
eax = nYVel;
if (eax < 0) {
eax = -eax;
}
edx = eax;
eax = ecx;
if (eax < 0) {
eax = -eax;
}
if (edx > eax)
{
// loc_23908:
nYVel = ecx;
nXVel = ebx;
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if (sMoveSect[i].sMoveDir > 0)
{
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sMoveSect[i].nTrailPoint = sTrailPoint[sMoveSect[i].nTrailPoint].nTrailPointNext;
}
else
{
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sMoveSect[i].nTrailPoint = sTrailPoint[sMoveSect[i].nTrailPoint].nTrailPointPrev;
}
}
}
else
{
// repeat of code from loc_23908
nYVel = ecx;
nXVel = ebx;
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if (sMoveSect[i].sMoveDir > 0)
{
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sMoveSect[i].nTrailPoint = sTrailPoint[sMoveSect[i].nTrailPoint].nTrailPointNext;
}
else
{
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sMoveSect[i].nTrailPoint = sTrailPoint[sMoveSect[i].nTrailPoint].nTrailPointPrev;
}
}
// loc_2393A:
if (sMoveSect[i].field_8 != -1)
{
MoveSector(sMoveSect[i].field_8, -1, &nXVel, &nYVel);
}
int var_2C = nXVel;
int var_30 = nYVel;
MoveSector(nSector, -1, &nXVel, &nYVel);
if (nXVel != var_2C || nYVel != var_30)
{
MoveSector(sMoveSect[i].field_8, -1, &var_2C, &var_30);
MoveSector(sMoveSect[i].field_8, -1, &nXVel, &nYVel);
}
}
}
void PostProcess()
{
int i, j;
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for (unsigned i = 0; i < sMoveSect.Size(); i++)
{
int nTrail = sMoveSect[i].nTrail;
sMoveSect[i].nTrailPoint = sTrail[nTrail].field_0;
if (sMoveSect[i].field_6 & 0x40) {
runlist_ChangeChannel(sMoveSect[i].field_14, 1);
}
short nSector = sMoveSect[i].nSector;
if (SectFlag[nSector] & kSectUnderwater)
{
sector[nSector].ceilingstat |= 0x40;
sector[nSector].floorstat &= 0xBFFF;
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for (unsigned j = 0; j < sMoveSect.Size(); j++)
{
if (j != i && sMoveSect[i].nTrail == sMoveSect[j].nTrail)
{
sMoveSect[j].field_8 = sMoveSect[i].nSector;
SnapSectors(sMoveSect[j].nSector, sMoveSect[i].nSector, 0);
sMoveSect[i].nSector = -1;
}
}
}
}
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for (unsigned i = 0; i < sBob.Size(); i++)
{
if (sBob[i].field_3 == 0)
{
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int bobID = sBob[i].sBobID;
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for (unsigned j = 0; j < sBob.Size(); j++)
{
if (j != i)
{
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if (sBob[i].field_3 != 0 && sBob[j].sBobID == bobID) {
SnapSectors(i, j, 0);
}
}
}
}
}
if (!(currentLevel->gameflags & LEVEL_EX_COUNTDOWN))
{
// esi is i
for (i = 0; i < numsectors; i++)
{
int var_20 = 30000;
if (SectSpeed[i] && SectDepth[i] && !(SectFlag[i] & kSectLava))
{
SectSoundSect[i] = i;
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SectSound[i] = StaticSound[kSound43];
}
else
{
// ebp and ecx are j
for (j = 0; j < numsectors; j++)
{
// loc_23CA6:
if (i != j && SectSpeed[j] && !(SectFlag[i] & kSectLava))
{
int xVal = wall[sector[i].wallptr].x - wall[sector[j].wallptr].x;
if (xVal < 0) {
xVal = -xVal;
}
int yVal = wall[sector[i].wallptr].x - wall[sector[j].wallptr].x;
if (yVal < 0) {
yVal = -yVal;
}
if (xVal < 15000 && yVal < 15000 && (xVal + yVal < var_20))
{
var_20 = xVal + yVal;
SectSoundSect[i] = j;
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SectSound[i] = StaticSound[kSound43];
}
}
}
}
}
}
else // nMap == kMap20)
{
// int var_24 = 0;
int ebp = 0;
for (i = 0; i < numsectors; i++)
{
SectSoundSect[i] = i;
SectSound[i] = StaticSound[kSound62];
int startwall = sector[ebp].wallptr;
int endwall = sector[ebp].wallptr + sector[ebp].wallnum;
int nWall = startwall;
while (nWall < endwall)
{
if (wall[nWall].picnum == kTile3603)
{
wall[nWall].pal = 1;
int nSprite = insertsprite(i, 407);
auto pSprite = &sprite[nSprite];
pSprite->cstat = 0x8000;
}
nWall++;
}
}
for (i = 0; i < kMaxSprites; i++)
{
if (sprite[i].statnum < kMaxStatus && sprite[i].picnum == kTile3603)
{
changespritestat(i, 407);
sprite[i].pal = 1;
}
}
}
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for (unsigned i = 0; i < ObjectList.Size(); i++)
{
int nObjectSprite = ObjectList[i].nSprite;
if (sprite[nObjectSprite].statnum == kStatExplodeTarget)
{
if (!ObjectList[i].field_10) {
ObjectList[i].field_10 = -1;
}
else
{
int edi = ObjectList[i].field_10;
ObjectList[i].field_10 = -1;
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for (unsigned j = 0; j < ObjectList.Size(); j++)
{
if (i != j && sprite[ObjectList[j].nSprite].statnum == kStatExplodeTarget && edi == ObjectList[j].field_10)
{
ObjectList[i].field_10 = j;
ObjectList[j].field_10 = i;
}
}
}
}
}
}
END_PS_NS