raze/source/exhumed/src/runlist.cpp

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#include "exhumed.h"
#include "engine.h"
#include "runlist.h"
#include "player.h"
#include "trigdat.h"
#include "move.h"
#include "random.h"
#include "mummy.h"
#include "fish.h"
#include "lion.h"
#include "rex.h"
#include "set.h"
#include "rat.h"
#include "wasp.h"
#include "anubis.h"
#include "snake.h"
#include "scorp.h"
#include "ra.h"
#include "spider.h"
#include "bullet.h"
#include "queen.h"
#include "roach.h"
#include "bubbles.h"
#include "lavadude.h"
#include "grenade.h"
#include "object.h"
#include "switch.h"
#include "anims.h"
#include "sound.h"
#include "init.h"
#include "lighting.h"
#include <assert.h>
//#define kFuncMax 0x260000 // the number 38 stored in the high word of an int
#define kFuncMax 39
#define kMaxRunStack 200
short RunCount = -1;
short nRadialSpr = -1;
short nStackCount = 0;
short word_966BE = 0;
short ChannelList = -1;
short ChannelLast = -1;
int nRadialOwner;
int nDamageRadius;
int nRadialDamage;
short RunChain;
short NewRun;
int sRunStack[kMaxRunStack];
short RunFree[kMaxRuns];
RunChannel sRunChannels[kMaxChannels];
RunStruct RunData[kMaxRuns];
short word_96760 = 0;
/* variables
Name: _sRunStack
Name: _RunFree
Name: _channel
Name: _RunData
Name: _nRadialOwner
Name: _nDamageRadius
Name: _nRadialDamage
Name: _RunCount
Name: _nRadialSpr
Name: _nStackCount
*/
AiFunc aiFunctions[kFuncMax] = {
FuncElev,
FuncSwReady,
FuncSwPause,
FuncSwStepOn,
FuncSwNotOnPause,
FuncSwPressSector,
FuncSwPressWall,
FuncWallFace,
FuncSlide,
FuncAnubis,
FuncPlayer, // 10
FuncBullet,
FuncSpider,
FuncCreatureChunk,
FuncMummy,
FuncGrenade,
FuncAnim,
FuncSnake,
FuncFish,
FuncLion,
FuncBubble, // 20
FuncLava,
FuncLavaLimb,
FuncObject,
FuncRex,
FuncSet,
FuncQueen,
FuncQueenHead,
FuncRoach,
FuncQueenEgg,
FuncWasp, // 30
FuncTrap,
FuncFishLimb,
FuncRa, // 33
FuncScorp,
FuncSoul,
FuncRat,
FuncEnergyBlock,
FuncSpark,
};
int runlist_GrabRun()
{
assert(RunCount > 0 && RunCount <= kMaxRuns);
RunCount--;
return RunFree[RunCount];
}
int runlist_FreeRun(int nRun)
{
assert(RunCount >= 0 && RunCount < kMaxRuns);
assert(nRun >= 0 && nRun < kMaxRuns);
RunFree[RunCount] = nRun;
RunCount++;
RunData[nRun]._6 = -1;
RunData[nRun].nMoves = -1;
RunData[nRun]._4 = RunData[nRun]._6;
return 1;
}
// done
int runlist_HeadRun()
{
int nRun = runlist_GrabRun();
RunData[nRun]._4 = -1;
RunData[nRun]._6 = -1;
return nRun;
}
// sub 4
void runlist_InitRun()
{
int i;
RunCount = kMaxRuns;
nStackCount = 0;
for (i = 0; i < kMaxRuns; i++)
{
RunData[i].nMoves = -1;
RunData[i]._6 = -1;
RunFree[i] = i;
RunData[i]._4 = -1;
}
int nRun = runlist_HeadRun();
RunChain = nRun;
NewRun = nRun;
for (i = 0; i < kMaxPlayers; i++) {
PlayerList[i].nRun = -1;
}
nRadialSpr = -1;
}
int runlist_UnlinkRun(int nRun)
{
assert(nRun >= 0 && nRun < kMaxRuns);
if (nRun == RunChain)
{
RunChain = RunData[nRun]._4;
return nRun;
}
if (RunData[nRun]._6 >= 0)
{
RunData[RunData[nRun]._6]._4 = RunData[nRun]._4;
}
if (RunData[nRun]._4 >= 0)
{
RunData[RunData[nRun]._4]._6 = RunData[nRun]._6;
}
return nRun;
}
// done ?
int runlist_InsertRun(int RunLst, int RunNum)
{
assert(RunLst >= 0 && RunLst < kMaxRuns);
assert(RunNum >= 0 && RunNum < kMaxRuns);
RunData[RunNum]._6 = RunLst;
int val = RunData[RunLst]._4;
RunData[RunNum]._4 = val;
if (val >= 0) {
RunData[val]._6 = RunNum;
}
RunData[RunLst]._4 = RunNum;
return RunNum;
}
// done
int runlist_AddRunRec(int a, int b)
{
int nRun = runlist_GrabRun();
RunData[nRun].nMoves = b; // TODO - split this into the two shorts?
runlist_InsertRun(a, nRun);
return nRun;
}
void runlist_DoSubRunRec(int RunPtr)
{
assert(RunPtr >= 0 && RunPtr < kMaxRuns);
runlist_UnlinkRun(RunPtr);
runlist_FreeRun(RunPtr);
}
void runlist_CleanRunRecs()
{
int nextPtr = RunChain;
if (nextPtr >= 0)
{
assert(nextPtr < kMaxRuns);
nextPtr = RunData[nextPtr]._4;
}
while (nextPtr >= 0)
{
int runPtr = nextPtr;
assert(runPtr < kMaxRuns);
int val = RunData[runPtr].nRef; // >> 16;
nextPtr = RunData[runPtr]._4;
if (val < 0) {
runlist_DoSubRunRec(runPtr);
}
}
}
// done
void runlist_SubRunRec(int RunPtr)
{
assert(RunPtr >= 0 && RunPtr < kMaxRuns);
RunData[RunPtr].nMoves = -totalmoves;
}
void runlist_SendMessageToRunRec(int nRun, int edx, int nDamage)
{
int nFunc = RunData[nRun].nRef;// >> 16;
if (nFunc < 0) {
return;
}
assert(nFunc >= 0 && nFunc <= kFuncMax);
if (nFunc > kFuncMax) {
return;
}
assert(nFunc < kFuncMax); // REMOVE
// do function pointer call here.
aiFunctions[nFunc](edx, nDamage, nRun);
}
void runlist_ExplodeSignalRun()
{
short nextPtr = RunChain;
if (nextPtr >= 0)
{
assert(nextPtr < kMaxRuns);
nextPtr = RunData[nextPtr]._4;
}
// LOOP
while (nextPtr >= 0)
{
int runPtr = nextPtr;
assert(runPtr < kMaxRuns);
int val = RunData[runPtr].nMoves;
nextPtr = RunData[runPtr]._4;
if (val >= 0)
{
runlist_SendMessageToRunRec(runPtr, 0xA0000, 0);
}
}
}
void runlist_PushMoveRun(int eax)
{
if (nStackCount < kMaxRunStack)
{
sRunStack[nStackCount] = eax;
nStackCount++;
}
}
int runlist_PopMoveRun()
{
if (nStackCount <= 0) {
bail2dos("PopMoveRun() called inappropriately\n");
}
nStackCount--;
return sRunStack[nStackCount];
}
void runlist_SignalRun(int NxtPtr, int edx)
{
if (NxtPtr == RunChain && word_966BE != 0) {
runlist_PushMoveRun(edx);
return;
}
while (1)
{
word_966BE = 1;
if (NxtPtr >= 0)
{
assert(NxtPtr < kMaxRuns);
NxtPtr = RunData[NxtPtr]._4;
}
while (NxtPtr >= 0)
{
int RunPtr = NxtPtr;
if (RunPtr >= 0)
{
assert(RunPtr < kMaxRuns);
int val = RunData[RunPtr].nMoves;
NxtPtr = RunData[RunPtr]._4;
if (val >= 0) {
runlist_SendMessageToRunRec(RunPtr, edx, 0);
}
}
}
word_966BE = 0;
if (nStackCount == 0) {
return;
}
edx = runlist_PopMoveRun();
NxtPtr = RunChain;
}
}
void runlist_InitChan()
{
ChannelList = -1;
ChannelLast = -1;
for (int i = 0; i < kMaxChannels; i++)
{
sRunChannels[i].c = -1;
sRunChannels[i].a = runlist_HeadRun();
sRunChannels[i].b = -1;
sRunChannels[i].d = 0;
}
}
void runlist_ChangeChannel(int eax, short dx)
{
if (sRunChannels[eax].b < 0)
{
short nChannel = ChannelList;
ChannelList = eax;
sRunChannels[eax].b = nChannel;
}
sRunChannels[eax].c = dx;
sRunChannels[eax].d |= 2;
}
void runlist_ReadyChannel(short eax)
{
if (sRunChannels[eax].b < 0)
{
short nChannel = ChannelList;
ChannelList = eax;
sRunChannels[eax].b = nChannel;
}
sRunChannels[eax].d |= 1;
}
void runlist_ProcessChannels()
{
#if 1
short v0; // di@1
short v1; // si@1
short *v2; // ebx@3
short v3; // cx@3
short v4; // cx@5
int v5; // eax@11
int result; // eax@13
short b; // [sp+0h] [bp-1Ch]@3
short d;
do
{
v0 = -1;
v1 = -1;
while (ChannelList >= 0)
{
b = sRunChannels[ChannelList].b;
d = sRunChannels[ChannelList].d;
//v3 = v2[3];
//b = v2[1];
if (d & 2)
{
sRunChannels[ChannelList].d = d ^ 2;
//v2[3] = v3 ^ 2;
runlist_SignalRun(sRunChannels[ChannelList].a, ChannelList | 0x10000);
}
// v4 = v3 & 1;
if (d & 1)
{
sRunChannels[ChannelList].d ^= 1;
// *((_BYTE *)v2 + offsetof(RunChannel, d)) ^= 1u;
runlist_SignalRun(sRunChannels[ChannelList].a, 0x30000);
}
if (sRunChannels[ChannelList].d)
{
if (v1 == -1)
{
v1 = ChannelList;
v0 = ChannelList;
}
else
{
v5 = v0;
v0 = ChannelList;
sRunChannels[v5].b = ChannelList;
}
}
else
{
sRunChannels[ChannelList].b = -1;
}
ChannelList = b;
}
result = v1;
ChannelList = v1;
} while (v1 != -1);
#else
int edi = -1;
int esi = edi;
while (1)
{
short nChannel = ChannelList;
if (nChannel < 0)
{
ChannelList = esi;
if (esi != -1)
{
edi = -1;
esi = edi;
continue;
}
else {
return;
}
}
short b = sRunChannels[nChannel].b;
short d = sRunChannels[nChannel].d;
if (d & 2)
{
sRunChannels[nChannel].d = d ^ 2;
runlist_SignalRun(sRunChannels[nChannel].a, ChannelList | 0x10000);
}
if (d & 1)
{
sRunChannels[nChannel].d = d ^ 1;
runlist_SignalRun(sRunChannels[nChannel].a, 0x30000);
}
if (sRunChannels[nChannel].d == 0)
{
sRunChannels[ChannelList].b = -1;
}
else
{
if (esi == -1)
{
esi = ChannelList;
edi = esi;
}
else
{
sRunChannels[edi].b = ChannelList;
edi = ChannelList;
}
}
ChannelList = b;
}
#endif
}
int runlist_FindChannel(short ax)
{
for (int i = 0; i < kMaxChannels; i++)
{
if (sRunChannels[i].c == -1)
{
sRunChannels[i].c = ax;
return i;
}
}
return -1;
}
int runlist_AllocChannel(int a)
{
if (a)
{
for (int i = 0; i < kMaxChannels; i++)
{
if (sRunChannels[i].c == a) {
return i;
}
}
}
return runlist_FindChannel(a);
}
void runlist_ExecObjects()
{
runlist_ProcessChannels();
runlist_SignalRun(RunChain, 0x20000);
}
void runlist_ProcessSectorTag(int nSector, int lotag, int hitag)
{
int zListA[8];
int zListB[8];
int _lotag = lotag;
int nChannel = runlist_AllocChannel(hitag % 1000);
assert(nChannel >= 0); // REMOVE
int var_2C = 1000;
int var_24 = (hitag / 1000) << 12;
int var_18 = lotag / 1000;
if (!var_18) {
var_18 = 1;
}
var_18 <<= 2;
_lotag = (lotag % 1000);
int eax = _lotag - 1;
switch (eax)
{
case 0: // Ceiling Doom door
{
/*
This function searches z-coordinates of neighboring sectors to find the
closest (next) ceiling starting at the given z-coordinate (thez).
*/
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwPress = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwPress);
int nSwPause = BuildSwPause(nChannel, BuildLink(2, -1, 0), 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwPause);
return;
}
case 1: // Floor Doom door
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].ceilingz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwPress = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwPress);
int nSwPause = BuildSwPause(nChannel, BuildLink(2, -1, 0), 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwPause);
return;
}
case 2:
case 3:
case 18:
case 19:
case 21:
case 28:
case 29:
case 45:
case 46:
case 59:
case 64:
case 65:
case 66:
case 68:
case 71:
case 72:
case 73:
case 75:
case 76:
case 77:
case 78:
case 80:
case 81:
case 82:
case 83:
case 84:
{
return;
}
case 4: // Permanent floor raise
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz + 1, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 5: // Touchplate floor lower, single
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 400, 400, 2, sector[nextSector].floorz, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(2, 1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
sector[nSector].floorz = sector[nextSector].floorz;
return;
}
case 6: // Touchplate floor lower, multiple
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwNotOnPause(nChannel, BuildLink(2, -1, 0), nSector, 8);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 7: // Permanent floor lower
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 8: // Switch activated lift down
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 150);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 9: // Touchplate Floor Raise
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwNotOnPause(nChannel, BuildLink(2, -1, 0), nSector, 8);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 10: // Permanent floor raise
case 13: // Sector raise / lower
case 37: // Sector raise / lower
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 11: // Switch activated lift up
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 150);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 12: // Bobbing floor
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwReady(nChannel, BuildLink(2, 1, 0));
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 14: // Sector raise/lower
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 15: // Stuttering noise (floor makes noise)
{
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, sector[nSector].floorz - 8);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwReady(nChannel, BuildLink(2, -1, 0));
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 16: // Reserved?
{
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, sector[nSector].floorz - 8);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwReady(nChannel, BuildLink(2, -1, 0));
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 17: // Raises floor AND lowers ceiling
{
int ebx = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].floorz, ebx);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int ebx2 = (((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz) - 8;
int nElev2 = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, ebx2);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev2);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 20: // Touchplate
{
int nSwitch = BuildSwStepOn(nChannel, BuildLink(2, 1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 22: // Floor raise, Sychronize
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 32767, 200, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), var_18 * 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 23: // Ceiling door, channel trigger only
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 24:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 300);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 25:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 450);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 26:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 600);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 27:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 900);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 30: // Touchplate
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 0x7FFF, 0x7FFF, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 31:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 0x7FFF, 0x7FFF, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 32: // Ceiling Crusher
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(20, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nextSector].ceilingz, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 33: // Triggerable Ceiling Crusher(Inactive)
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(28, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nextSector].ceilingz, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 34: // Destructible sector
case 35:
{
nEnergyTowers++;
int nEnergyBlock = BuildEnergyBlock(nSector);
if (_lotag == 36) {
nFinaleSpr = nEnergyBlock;
}
return;
}
case 36:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 38: // Touchplate
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 0x7FFF, 0x7FFF, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwNotOnPause(nChannel, BuildLink(2, -1, 0), nSector, 8);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 39: // Moving sector(follows waypoints)
{
AddMovingSector(nSector, lotag, hitag % 1000, 2);
return;
}
case 40: // Moving sector(follows waypoints)
{
AddMovingSector(nSector, lotag, hitag % 1000, 18);
return;
}
case 41: // Moving sector(follows waypoints)
{
AddMovingSector(nSector, lotag, hitag % 1000, 58);
return;
}
case 42: // Moving sector(follows waypoints)
{
AddMovingSector(nSector, lotag, hitag % 1000, 122);
return;
}
case 43: // Moving sector(follows waypoints)
{
AddMovingSector(nSector, lotag, hitag % 1000, 90);
return;
}
case 44: // Pushbox sector
{
CreatePushBlock(nSector);
return;
}
case 47: // Ceiling lower
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, 1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 48:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 49: // Floor lower / raise
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 0x7FFF, 200, 2, sector[nextSector].floorz, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 50:
{
int edx = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].floorz, edx);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int eax = (((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz) - 8;
nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), 200, var_18 * 100, 2, sector[nSector].ceilingz, eax);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwReady(nChannel, BuildLink(2, 1, 0));
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 51:
{
int eax = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, eax, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
eax = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, eax, sector[nSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 52:
{
int eax = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, eax, sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
eax = ((sector[nSector].floorz - sector[nSector].ceilingz) / 2) + sector[nSector].ceilingz;
nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, eax, sector[nSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPause(nChannel, BuildLink(2, -1, 0), 150);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 53:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 54:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 55:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 56:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].ceilingz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 57:
{
int nSwitch = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
// Fall through to case 62
}
case 62:
{
if (_lotag == 63) {
nEnergyChan = nChannel;
}
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 58:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwStepOn(nChannel, BuildLink(1, 1), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwNotOnPause(nChannel, BuildLink(1, 1), nSector, 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 60:
{
zListB[0] = sector[nSector].floorz;
int var_1C = 1;
while (1)
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, -1);
if (nextSector < 0 || var_1C >= 8) {
break;
}
zListB[var_1C] = sector[nextSector].floorz;
var_1C++;
}
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, var_1C,
zListB[0], zListB[1], zListB[2], zListB[3], zListB[4], zListB[5], zListB[6], zListB[7]);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 61:
{
zListA[0] = sector[nSector].floorz;
int var_20 = 1;
while (1)
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
if (nextSector < 0 || var_20 >= 8) {
break;
}
zListA[var_20] = sector[nextSector].floorz;
var_20++;
}
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, var_20,
zListA[0], zListA[1], zListA[2], zListA[3], zListA[4], zListA[5], zListA[6], zListA[7]);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 63:
{
int nSwitch = BuildSwStepOn(nChannel, BuildLink(2, 0, 0), nSector);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 67:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].floorz, 1, 1);
assert(nextSector > -1);
int nElev = BuildElevF(nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, sector[nSector].floorz, sector[nextSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 69:
case 70:
{
short nextSector = nextsectorneighborz(nSector, sector[nSector].ceilingz, -1, -1);
assert(nextSector > -1);
2019-08-31 10:36:26 +00:00
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, (int)sector[nSector].floorz, (int)sector[nextSector].ceilingz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
int nSwitch = BuildSwPressSector(nChannel, BuildLink(1, 1), nSector, var_24);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
int nSwitch2 = BuildSwPause(nChannel, BuildLink(2, -1, 0), 60);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch2);
return;
}
case 74:
{
2019-08-31 10:36:26 +00:00
int nElev = BuildElevC(0, nChannel, nSector, FindWallSprites(nSector), var_18 * 100, var_18 * 100, 2, (int)sector[nSector].ceilingz, (int)sector[nSector].floorz);
runlist_AddRunRec(sRunChannels[nChannel].a, nElev);
return;
}
case 79:
{
SectFlag[nSector] |= 0x8000;
return;
}
}
}
void runlist_ProcessWallTag(int nWall, short lotag, short hitag)
{
int nChannel = runlist_AllocChannel(hitag % 1000);
assert(nChannel >= 0 && nChannel < kMaxChannels);
int var_18 = 0; // TODO - FIXME CHECKME. This doesn't seem to be initialised in the ASM?
int var_28;
int var_20 = 0; // TODO - FIXME CHECKME. This doesn't seem to be initialised in the ASM?
int var_34;
int var_14 = 0; // TODO - FIXME CHECKME. This doesn't seem to be initialised in the ASM?
int var_24;
int var_38 = 0; // TODO - FIXME CHECKME. This doesn't seem to be initialised in the ASM?
int var_2C;
int eax = lotag / 1000;
if (!eax) {
eax = 1;
}
int edx = lotag % 1000;
int edi = edx;
eax <<= 2;
switch (edx)
{
case 1:
{
int nWallFace = BuildWallFace(nChannel, nWall, 2, wall[nWall].picnum, wall[nWall].picnum + 1);
runlist_AddRunRec(sRunChannels[nChannel].a, nWallFace);
int nSwitch = BuildSwPressWall(nChannel, BuildLink(2, edi, 0), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 6:
{
int nSwitch = BuildSwPressWall(nChannel, BuildLink(2, 1, 0), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 7: // Regular switch
{
int nWallFace = BuildWallFace(nChannel, nWall, 2, wall[nWall].picnum, wall[nWall].picnum + 1);
runlist_AddRunRec(sRunChannels[nChannel].a, nWallFace);
int nSwitch = BuildSwPressWall(nChannel, BuildLink(1, 1), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 8:
{
int nWallFace = BuildWallFace(nChannel, nWall, 2, wall[nWall].picnum, wall[nWall].picnum + 1);
runlist_AddRunRec(sRunChannels[nChannel].a, nWallFace);
int nSwitch = BuildSwPressWall(nChannel, BuildLink(2, -1, 0), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 9: // Invisible switch
{
int nSwitch = BuildSwPressWall(nChannel, BuildLink(2, 1, 1), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 10:
{
int nSwitch = BuildSwPressWall(nChannel, BuildLink(2, -1, 0), nWall);
runlist_AddRunRec(sRunChannels[nChannel].a, nSwitch);
return;
}
case 12:
{
short nStart = nWall;
while (1)
{
nWall = wall[nWall].point2;
if (nStart == nWall) {
break;
}
var_28 = var_18;
var_18 = nWall;
}
short nWall2 = wall[nStart].point2;
short nWall3 = wall[nWall2].point2;
short nWall4 = wall[nWall3].point2;
int nSlide = BuildSlide(nChannel, nStart, var_18, var_28, nWall2, nWall3, nWall4);
runlist_AddRunRec(sRunChannels[nChannel].a, nSlide);
return;
}
case 14:
{
short nStart = nWall;
while (1)
{
nWall = wall[nWall].point2;
if (nStart == nWall) {
break;
}
var_34 = var_20;
var_20 = nWall;
}
short nWall2 = wall[nStart].point2;
short nWall3 = wall[nWall2].point2;
short nWall4 = wall[nWall3].point2;
int nSlide = BuildSlide(nChannel, nStart, var_20, var_34, nWall2, nWall3, nWall4);
runlist_AddRunRec(sRunChannels[nChannel].a, nSlide);
return;
}
case 16:
{
short nStart = nWall;
while (1)
{
nWall = wall[nWall].point2;
if (nStart == nWall) {
break;
}
var_24 = var_14;
var_14 = nWall;
}
short nWall2 = wall[nStart].point2;
short nWall3 = wall[nWall2].point2;
short nWall4 = wall[nWall3].point2;
int nSlide = BuildSlide(nChannel, nStart, var_14, var_24, nWall2, nWall3, nWall4);
runlist_AddRunRec(sRunChannels[nChannel].a, nSlide);
return;
}
case 19:
{
short nStart = nWall;
while (1)
{
nWall = wall[nWall].point2;
if (nStart == nWall) {
break;
}
var_2C = var_38;
var_38 = nWall;
}
short nWall2 = wall[nStart].point2;
short nWall3 = wall[nWall2].point2;
short nWall4 = wall[nWall3].point2;
int nSlide = BuildSlide(nChannel, nStart, var_38, var_2C, nWall2, nWall3, nWall4);
runlist_AddRunRec(sRunChannels[nChannel].a, nSlide);
return;
}
case 21:
{
return;
}
case 24:
{
AddFlow(nWall, eax, 3);
return;
}
case 25:
{
AddFlow(nWall, eax, 2);
return;
}
}
}
int runlist_CheckRadialDamage(short nSprite)
{
if (nSprite == nRadialSpr) {
return 0;
}
if (!(sprite[nSprite].cstat & 0x101)) {
return 0;
}
if (sprite[nSprite].statnum >= kMaxStatus || sprite[nRadialSpr].statnum >= kMaxStatus) {
return 0;
}
if (sprite[nSprite].statnum != 100 && nSprite == nRadialOwner) {
return 0;
}
int x = (sprite[nSprite].x - sprite[nRadialSpr].x) >> 8;
int y = (sprite[nSprite].y - sprite[nRadialSpr].y) >> 8;
int z = (sprite[nSprite].z - sprite[nRadialSpr].z) >> 12;
if (x < 0) {
x = -x;
}
if (x > nDamageRadius) {
return 0;
}
if (y < 0) {
y = -y;
}
if (y > nDamageRadius) {
return 0;
}
if (z < 0) {
z = -z;
}
if (z > nDamageRadius) {
return 0;
}
int edi = 0;
int nDist = ksqrt(x * x + y * y);
if (nDist < nDamageRadius)
{
uint16_t nCStat = sprite[nSprite].cstat;
sprite[nSprite].cstat = 0x101;
if (((kStatExplodeTarget - sprite[nSprite].statnum) <= 1) ||
cansee(sprite[nRadialSpr].x,
sprite[nRadialSpr].y,
sprite[nRadialSpr].z - 512,
sprite[nRadialSpr].sectnum,
sprite[nSprite].x,
sprite[nSprite].y,
sprite[nSprite].z - 8192,
sprite[nSprite].sectnum))
{
edi = (nRadialDamage * (nDamageRadius - nDist)) / nDamageRadius;
if (edi < 0) {
edi = 0;
}
else if (edi > 20)
{
int nAngle = GetMyAngle(x, y);
sprite[nSprite].xvel += (short)((edi * Sin(nAngle + 512)) >> 3);
sprite[nSprite].yvel += (short)((edi * Sin(nAngle)) >> 3);
sprite[nSprite].zvel -= edi * 24;
if (sprite[nSprite].zvel < -3584) {
sprite[nSprite].zvel = -3584;
}
}
}
sprite[nSprite].cstat = nCStat;
}
if (edi > 0x7FFF) {
edi = 0x7FFF;
}
return edi;
}
void runlist_RadialDamageEnemy(short nSprite, short nDamage, short nRadius)
{
if (!nRadius) {
return;
}
word_96760++;
if (nRadialSpr == -1)
{
nRadialDamage = nDamage * 4;
nDamageRadius = nRadius;
nRadialSpr = nSprite;
nRadialOwner = sprite[nSprite].owner;
runlist_ExplodeSignalRun();
nRadialSpr = -1;
word_96760--;
}
}
void runlist_DamageEnemy(int nSprite, int nSprite2, short nDamage)
{
if (sprite[nSprite].statnum >= kMaxStatus) {
return;
}
short nRun = sprite[nSprite].owner;
if (nRun <= -1) {
return;
}
runlist_SendMessageToRunRec(nRun, (nSprite2 & 0xFFFF) | 0x80000, nDamage * 4);
if (nCreaturesLeft <= 0) {
return;
}
if (sprite[nSprite2].statnum != 100) {
return;
}
short nPlayer = GetPlayerFromSprite(nSprite2);
nTauntTimer[nPlayer]--;
if (nTauntTimer[nPlayer] <= 0)
{
// Do a taunt
int nPlayerSprite = PlayerList[nPlayer].nSprite;
int nSector = sprite[nPlayerSprite].sectnum;
if (!(SectFlag[nSector] & kSectUnderwater))
{
int ebx = 0x4000;
if (nPlayer == nLocalPlayer) {
ebx = 0x6000;
}
int nDopSprite = nDoppleSprite[nPlayer];
D3PlayFX(StaticSound[kSoundTauntStart + (RandomSize(3) % 5)], nDopSprite | ebx);
}
nTauntTimer[nPlayer] = RandomSize(3) + 3;
}
}