raze/source/sw/src/rooms.cpp

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//-------------------------------------------------------------------------
/*
Copyright (C) 1997, 2005 - 3D Realms Entertainment
This file is part of Shadow Warrior version 1.2
Shadow Warrior is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
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.
Original Source: 1997 - Frank Maddin and Jim Norwood
Prepared for public release: 03/28/2005 - Charlie Wiederhold, 3D Realms
*/
//-------------------------------------------------------------------------
#include "build.h"
#include "names2.h"
#include "panel.h"
#include "game.h"
#include "warp.h"
void _ErrMsg(const char *strFile, unsigned uLine, const char *format, ...);
void FAF_DrawRooms(int posx, int posy, int posz, short ang, int horiz, short cursectnum);
////////////////////////////////////////////////////////////////////
//
// FLOOR ABOVE FLOOR
//
////////////////////////////////////////////////////////////////////
#define ZMAX 400
typedef struct
{
int32_t zval[ZMAX];
int16_t sectnum[ZMAX];
int16_t pic[ZMAX];
int16_t zcount;
int16_t slope[ZMAX];
} SAVE, *SAVEp;
SAVE save;
SWBOOL FAF_DebugView = 0;
void COVERupdatesector(int32_t x, int32_t y, int16_t* newsector)
{
ASSERT(*newsector>=0 && *newsector<MAXSECTORS);
updatesector(x,y,newsector);
}
int COVERinsertsprite(short sectnum, short stat)
{
short spnum;
spnum = insertsprite(sectnum, stat);
PRODUCTION_ASSERT(spnum >= 0);
sprite[spnum].x = sprite[spnum].y = sprite[spnum].z = 0;
sprite[spnum].cstat = 0;
sprite[spnum].picnum = 0;
sprite[spnum].shade = 0;
sprite[spnum].pal = 0;
sprite[spnum].clipdist = 0;
sprite[spnum].xrepeat = sprite[spnum].yrepeat = 0;
sprite[spnum].xoffset = sprite[spnum].yoffset = 0;
sprite[spnum].ang = 0;
sprite[spnum].owner = -1;
sprite[spnum].xvel = sprite[spnum].yvel = sprite[spnum].zvel = 0;
sprite[spnum].lotag = 0;
sprite[spnum].hitag = 0;
sprite[spnum].extra = 0;
return spnum;
}
SWBOOL
FAF_Sector(short sectnum)
{
short SpriteNum, Next;
SPRITEp sp;
SWBOOL found = FALSE;
TRAVERSE_SPRITE_SECT(headspritesect[sectnum], SpriteNum, Next)
{
sp = &sprite[SpriteNum];
if (sp->statnum == STAT_FAF &&
(sp->hitag >= VIEW_LEVEL1 && sp->hitag <= VIEW_LEVEL6))
{
return TRUE;
}
}
return FALSE;
}
void SetWallWarpHitscan(short sectnum)
{
short start_wall, wall_num;
SPRITEp sp_warp;
if (!WarpSectorInfo(sectnum, &sp_warp))
return;
if (!sp_warp)
return;
// move the the next wall
wall_num = start_wall = sector[sectnum].wallptr;
// Travel all the way around loop setting wall bits
do
{
if (wall[wall_num].nextwall >= 0)
SET(wall[wall_num].cstat, CSTAT_WALL_WARP_HITSCAN);
wall_num = wall[wall_num].point2;
}
while (wall_num != start_wall);
}
void ResetWallWarpHitscan(short sectnum)
{
short start_wall, wall_num;
// move the the next wall
wall_num = start_wall = sector[sectnum].wallptr;
// Travel all the way around loop setting wall bits
do
{
RESET(wall[wall_num].cstat, CSTAT_WALL_WARP_HITSCAN);
wall_num = wall[wall_num].point2;
}
while (wall_num != start_wall);
}
void
FAFhitscan(int32_t x, int32_t y, int32_t z, int16_t sectnum,
int32_t xvect, int32_t yvect, int32_t zvect,
hitdata_t* hitinfo, int32_t clipmask)
{
vec3_t firstpos = { x, y, z };
int loz, hiz;
short newsectnum = sectnum;
int startclipmask = 0;
SWBOOL plax_found = FALSE;
if (clipmask == CLIPMASK_MISSILE)
startclipmask = CLIPMASK_WARP_HITSCAN;
hitscan(&firstpos, sectnum, xvect, yvect, zvect,
hitinfo, startclipmask);
if (hitinfo->sect < 0)
return;
if (hitinfo->wall >= 0)
{
// hitscan warping
if (TEST(wall[hitinfo->wall].cstat, CSTAT_WALL_WARP_HITSCAN))
{
short src_sect = hitinfo->sect;
short dest_sect;
MONO_PRINT(ds);
// back it up a bit to get a correct warp location
hitinfo->pos.x -= xvect>>9;
hitinfo->pos.y -= yvect>>9;
// warp to new x,y,z, sectnum
if (Warp(&hitinfo->pos.x, &hitinfo->pos.y, &hitinfo->pos.z, &hitinfo->sect))
{
vec3_t pos = hitinfo->pos;
dest_sect = hitinfo->sect;
// hitscan needs to pass through dest sect
ResetWallWarpHitscan(dest_sect);
// NOTE: This could be recursive I think if need be
hitscan(&pos, hitinfo->sect, xvect, yvect, zvect,
hitinfo, startclipmask);
// reset hitscan block for dest sect
SetWallWarpHitscan(dest_sect);
return;
}
else
{
//DSPRINTF(ds,"hitinfo->pos.x %d, hitinfo->pos.y %d, hitinfo->pos.z %d",hitinfo->pos.x, hitinfo->pos.y, hitinfo->pos.z);
MONO_PRINT(ds);
ASSERT(TRUE == FALSE);
}
}
}
// make sure it hit JUST a sector before doing a check
if (hitinfo->wall < 0 && hitinfo->sprite < 0)
{
if (TEST(sector[hitinfo->sect].extra, SECTFX_WARP_SECTOR))
{
if (TEST(wall[sector[hitinfo->sect].wallptr].cstat, CSTAT_WALL_WARP_HITSCAN))
{
// hit the floor of a sector that is a warping sector
if (Warp(&hitinfo->pos.x, &hitinfo->pos.y, &hitinfo->pos.z, &hitinfo->sect))
{
vec3_t pos = hitinfo->pos;
hitscan(&pos, hitinfo->sect, xvect, yvect, zvect,
hitinfo, clipmask);
return;
}
}
else
{
if (WarpPlane(&hitinfo->pos.x, &hitinfo->pos.y, &hitinfo->pos.z, &hitinfo->sect))
{
vec3_t pos = hitinfo->pos;
hitscan(&pos, hitinfo->sect, xvect, yvect, zvect,
hitinfo, clipmask);
return;
}
}
}
getzsofslope(hitinfo->sect, hitinfo->pos.x, hitinfo->pos.y, &hiz, &loz);
if (labs(hitinfo->pos.z - loz) < Z(4))
{
if (FAF_ConnectFloor(hitinfo->sect) && !TEST(sector[hitinfo->sect].floorstat, FLOOR_STAT_FAF_BLOCK_HITSCAN))
{
updatesectorz(hitinfo->pos.x, hitinfo->pos.y, hitinfo->pos.z + Z(12), &newsectnum);
plax_found = TRUE;
}
}
else if (labs(hitinfo->pos.z - hiz) < Z(4))
{
if (FAF_ConnectCeiling(hitinfo->sect) && !TEST(sector[hitinfo->sect].floorstat, CEILING_STAT_FAF_BLOCK_HITSCAN))
{
updatesectorz(hitinfo->pos.x, hitinfo->pos.y, hitinfo->pos.z - Z(12), &newsectnum);
plax_found = TRUE;
}
}
}
if (plax_found)
{
vec3_t pos = hitinfo->pos;
hitscan(&pos, newsectnum, xvect, yvect, zvect,
hitinfo, clipmask);
}
}
SWBOOL
FAFcansee(int32_t xs, int32_t ys, int32_t zs, int16_t sects,
int32_t xe, int32_t ye, int32_t ze, int16_t secte)
{
int loz, hiz;
short newsectnum = sects;
int xvect, yvect, zvect;
short ang;
hitdata_t hitinfo;
int dist;
SWBOOL plax_found = FALSE;
vec3_t s = { xs, ys, zs };
ASSERT(sects >= 0 && secte >= 0);
// early out to regular routine
if (!FAF_Sector(sects) && !FAF_Sector(secte))
{
return cansee(xs,ys,zs,sects,xe,ye,ze,secte);
}
// get angle
ang = getangle(xe - xs, ye - ys);
// get x,y,z, vectors
xvect = sintable[NORM_ANGLE(ang + 512)];
yvect = sintable[NORM_ANGLE(ang)];
// find the distance to the target
dist = ksqrt(SQ(xe - xs) + SQ(ye - ys));
if (dist != 0)
{
if (xe - xs != 0)
zvect = scale(xvect, ze - zs, xe - xs);
else if (ye - ys != 0)
zvect = scale(yvect, ze - zs, ye - ys);
else
zvect = 0;
}
else
zvect = 0;
hitscan(&s, sects, xvect, yvect, zvect,
&hitinfo, CLIPMASK_MISSILE);
if (hitinfo.sect < 0)
return FALSE;
// make sure it hit JUST a sector before doing a check
if (hitinfo.wall < 0 && hitinfo.sprite < 0)
{
getzsofslope(hitinfo.sect, hitinfo.pos.x, hitinfo.pos.y, &hiz, &loz);
if (labs(hitinfo.pos.z - loz) < Z(4))
{
if (FAF_ConnectFloor(hitinfo.sect))
{
updatesectorz(hitinfo.pos.x, hitinfo.pos.y, hitinfo.pos.z + Z(12), &newsectnum);
plax_found = TRUE;
}
}
else if (labs(hitinfo.pos.z - hiz) < Z(4))
{
if (FAF_ConnectCeiling(hitinfo.sect))
{
updatesectorz(hitinfo.pos.x, hitinfo.pos.y, hitinfo.pos.z - Z(12), &newsectnum);
plax_found = TRUE;
}
}
}
else
{
return cansee(xs,ys,zs,sects,xe,ye,ze,secte);
}
if (plax_found)
return cansee(hitinfo.pos.x,hitinfo.pos.y,hitinfo.pos.z,newsectnum,xe,ye,ze,secte);
return FALSE;
}
int
GetZadjustment(short sectnum, short hitag)
{
short i, nexti;
SPRITEp sp;
if (!TEST(sector[sectnum].extra, SECTFX_Z_ADJUST))
return 0L;
TRAVERSE_SPRITE_STAT(headspritestat[STAT_ST1], i, nexti)
{
sp = &sprite[i];
if (sp->hitag == hitag && sp->sectnum == sectnum)
{
return Z(sp->lotag);
}
}
return 0L;
}
SWBOOL SectorZadjust(int ceilhit, int32_t* hiz, short florhit, int32_t* loz)
{
extern int PlaxCeilGlobZadjust, PlaxFloorGlobZadjust;
int z_amt = 0;
SWBOOL SkipFAFcheck = FALSE;
if ((int)florhit != -1)
{
switch (TEST(florhit, HIT_MASK))
{
case HIT_SECTOR:
{
short hit_sector = NORM_SECTOR(florhit);
// don't jack with connect sectors
if (FAF_ConnectFloor(hit_sector))
{
// rippers were dying through the floor in $rock
if (TEST(sector[hit_sector].floorstat, CEILING_STAT_FAF_BLOCK_HITSCAN))
break;
if (TEST(sector[hit_sector].extra, SECTFX_Z_ADJUST))
{
// see if a z adjust ST1 is around
z_amt = GetZadjustment(hit_sector, FLOOR_Z_ADJUST);
if (z_amt)
{
// explicit z adjust overrides Connect Floor
*loz += z_amt;
SkipFAFcheck = TRUE;
}
}
break;
}
if (!TEST(sector[hit_sector].extra, SECTFX_Z_ADJUST))
break;
// see if a z adjust ST1 is around
z_amt = GetZadjustment(hit_sector, FLOOR_Z_ADJUST);
if (z_amt)
{
// explicit z adjust overrides plax default
*loz += z_amt;
}
else
// default adjustment for plax
if (TEST(sector[hit_sector].floorstat, FLOOR_STAT_PLAX))
{
*loz += PlaxFloorGlobZadjust;
}
break;
}
}
}
if ((int)ceilhit != -1)
{
switch (TEST(ceilhit, HIT_MASK))
{
case HIT_SECTOR:
{
short hit_sector = NORM_SECTOR(ceilhit);
// don't jack with connect sectors
if (FAF_ConnectCeiling(hit_sector))
{
if (TEST(sector[hit_sector].extra, SECTFX_Z_ADJUST))
{
// see if a z adjust ST1 is around
z_amt = GetZadjustment(hit_sector, CEILING_Z_ADJUST);
if (z_amt)
{
// explicit z adjust overrides Connect Floor
*loz += z_amt;
SkipFAFcheck = TRUE;
}
}
break;
}
if (!TEST(sector[hit_sector].extra, SECTFX_Z_ADJUST))
break;
// see if a z adjust ST1 is around
z_amt = GetZadjustment(hit_sector, CEILING_Z_ADJUST);
if (z_amt)
{
// explicit z adjust overrides plax default
*hiz -= z_amt;
}
else
// default adjustment for plax
if (TEST(sector[hit_sector].ceilingstat, CEILING_STAT_PLAX))
{
*hiz -= PlaxCeilGlobZadjust;
}
break;
}
}
}
return SkipFAFcheck;
}
void WaterAdjust(short florhit, int32_t* loz)
{
switch (TEST(florhit, HIT_MASK))
{
case HIT_SECTOR:
{
SECT_USERp sectu = SectUser[NORM_SECTOR(florhit)];
if (sectu && sectu->depth)
*loz += Z(sectu->depth);
}
break;
case HIT_SPRITE:
break;
}
}
void FAFgetzrange(int32_t x, int32_t y, int32_t z, int16_t sectnum,
int32_t* hiz, int32_t* ceilhit,
int32_t* loz, int32_t* florhit,
int32_t clipdist, int32_t clipmask)
{
int foo1;
int foo2;
SWBOOL SkipFAFcheck;
// IMPORTANT!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
// This will return invalid FAF ceiling and floor heights inside of analyzesprite
// because the ceiling and floors get moved out of the way for drawing.
// early out to regular routine
if (!FAF_ConnectArea(sectnum))
{
getzrange_old(x, y, z, sectnum, hiz, ceilhit, loz, florhit, clipdist, clipmask);
SectorZadjust(*ceilhit, hiz, *florhit, loz);
WaterAdjust(*florhit, loz);
return;
}
getzrange_old(x, y, z, sectnum, hiz, ceilhit, loz, florhit, clipdist, clipmask);
SkipFAFcheck = SectorZadjust(*ceilhit, hiz, *florhit, loz);
WaterAdjust(*florhit, loz);
if (SkipFAFcheck)
return;
if (FAF_ConnectCeiling(sectnum))
{
short uppersect = sectnum;
int newz = *hiz - Z(2);
switch (TEST(*ceilhit, HIT_MASK))
{
case HIT_SPRITE:
return;
}
updatesectorz(x, y, newz, &uppersect);
if (uppersect < 0)
_ErrMsg(ERR_STD_ARG, "Did not find a sector at %d, %d, %d", x, y, newz);
getzrange_old(x, y, newz, uppersect, hiz, ceilhit, &foo1, &foo2, clipdist, clipmask);
SectorZadjust(*ceilhit, hiz, -1, NULL);
}
else if (FAF_ConnectFloor(sectnum) && !TEST(sector[sectnum].floorstat, FLOOR_STAT_FAF_BLOCK_HITSCAN))
//if (FAF_ConnectFloor(sectnum))
{
short lowersect = sectnum;
int newz = *loz + Z(2);
switch (TEST(*florhit, HIT_MASK))
{
case HIT_SECTOR:
{
short hit_sector = NORM_SECTOR(*florhit);
break;
}
case HIT_SPRITE:
return;
}
updatesectorz(x, y, newz, &lowersect);
if (lowersect < 0)
_ErrMsg(ERR_STD_ARG, "Did not find a sector at %d, %d, %d", x, y, newz);
getzrange_old(x, y, newz, lowersect, &foo1, &foo2, loz, florhit, clipdist, clipmask);
SectorZadjust(-1, NULL, *florhit, loz);
WaterAdjust(*florhit, loz);
}
}
void FAFgetzrangepoint(int32_t x, int32_t y, int32_t z, int16_t sectnum,
int32_t* hiz, int32_t* ceilhit,
int32_t* loz, int32_t* florhit)
{
int foo1;
int foo2;
SWBOOL SkipFAFcheck;
// IMPORTANT!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
// This will return invalid FAF ceiling and floor heights inside of analyzesprite
// because the ceiling and floors get moved out of the way for drawing.
// early out to regular routine
if (!FAF_ConnectArea(sectnum))
{
getzrangepoint(x, y, z, sectnum, hiz, ceilhit, loz, florhit);
SectorZadjust(*ceilhit, hiz, *florhit, loz);
WaterAdjust(*florhit, loz);
return;
}
getzrangepoint(x, y, z, sectnum, hiz, ceilhit, loz, florhit);
SkipFAFcheck = SectorZadjust(*ceilhit, hiz, *florhit, loz);
WaterAdjust(*florhit, loz);
if (SkipFAFcheck)
return;
if (FAF_ConnectCeiling(sectnum))
{
short uppersect = sectnum;
int newz = *hiz - Z(2);
switch (TEST(*ceilhit, HIT_MASK))
{
case HIT_SPRITE:
return;
}
updatesectorz(x, y, newz, &uppersect);
if (uppersect < 0)
_ErrMsg(ERR_STD_ARG, "Did not find a sector at %d, %d, %d, sectnum %d", x, y, newz, sectnum);
getzrangepoint(x, y, newz, uppersect, hiz, ceilhit, &foo1, &foo2);
SectorZadjust(*ceilhit, hiz, -1, NULL);
}
else if (FAF_ConnectFloor(sectnum) && !TEST(sector[sectnum].floorstat, FLOOR_STAT_FAF_BLOCK_HITSCAN))
//if (FAF_ConnectFloor(sectnum))
{
short lowersect = sectnum;
int newz = *loz + Z(2);
switch (TEST(*florhit, HIT_MASK))
{
case HIT_SPRITE:
return;
}
updatesectorz(x, y, newz, &lowersect);
if (lowersect < 0)
_ErrMsg(ERR_STD_ARG, "Did not find a sector at %d, %d, %d, sectnum %d", x, y, newz, sectnum);
getzrangepoint(x, y, newz, lowersect, &foo1, &foo2, loz, florhit);
SectorZadjust(-1, NULL, *florhit, loz);
WaterAdjust(*florhit, loz);
}
}
#if 0
SWBOOL
FAF_ConnectCeiling(short sectnum)
{
return sector[sectnum].ceilingpicnum == FAF_MIRROR_PIC;
}
SWBOOL
FAF_ConnectFloor(short sectnum)
{
return sector[sectnum].floorpicnum == FAF_MIRROR_PIC;
}
#endif
// doesn't work for blank pics
SWBOOL
PicInView(short tile_num, SWBOOL reset)
{
if (TEST(gotpic[tile_num >> 3], 1 << (tile_num & 7)))
{
if (reset)
RESET(gotpic[tile_num >> 3], 1 << (tile_num & 7));
return TRUE;
}
return FALSE;
}
void
SetupMirrorTiles(void)
{
short i, nexti;
short j, nextj;
SPRITEp sp;
SWBOOL found;
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sector[sp->sectnum].ceilingpicnum == FAF_PLACE_MIRROR_PIC)
{
sector[sp->sectnum].ceilingpicnum = FAF_MIRROR_PIC;
SET(sector[sp->sectnum].ceilingstat, CEILING_STAT_PLAX);
}
if (sector[sp->sectnum].floorpicnum == FAF_PLACE_MIRROR_PIC)
{
sector[sp->sectnum].floorpicnum = FAF_MIRROR_PIC;
SET(sector[sp->sectnum].floorstat, FLOOR_STAT_PLAX);
}
if (sector[sp->sectnum].ceilingpicnum == FAF_PLACE_MIRROR_PIC+1)
sector[sp->sectnum].ceilingpicnum = FAF_MIRROR_PIC+1;
if (sector[sp->sectnum].floorpicnum == FAF_PLACE_MIRROR_PIC+1)
sector[sp->sectnum].floorpicnum = FAF_MIRROR_PIC+1;
}
}
//This function is like updatesector, but it takes a z-coordinate in addition
// to help it get the right sector when there's overlapping. (I may be
// adding this function to the engine or making the standard updatesector
// use z's. Until then, use this. )
#if 0
void
updatesectorz(int x, int y, int z, short *sectnum)
{
walltype *wal;
int i, j, cz, fz;
ASSERT(*sectnum >=0 && *sectnum <= MAXSECTORS);
getzsofslope(*sectnum, x, y, &cz, &fz);
// go ahead and check the current sector
if ((z >= cz) && (z <= fz))
if (inside(x, y, *sectnum) != 0)
return;
// Test the sectors immediately around your current sector
if ((*sectnum >= 0) && (*sectnum < numsectors))
{
wal = &wall[sector[*sectnum].wallptr];
j = sector[*sectnum].wallnum;
do
{
i = wal->nextsector;
if (i >= 0)
{
getzsofslope(i, x, y, &cz, &fz);
if ((z >= cz) && (z <= fz))
{
if (inside(x, y, (short) i) == 1)
{
*sectnum = i;
return;
}
}
}
wal++;
j--;
}
while (j != 0);
}
// didn't find it yet so test ALL sectors
for (i = numsectors - 1; i >= 0; i--)
{
getzsofslope(i, x, y, &cz, &fz);
if ((z >= cz) && (z <= fz))
{
if (inside(x, y, (short) i) == 1)
{
*sectnum = i;
return;
}
}
}
*sectnum = -1;
}
#endif
short GlobStackSect[2];
void
GetUpperLowerSector(short match, int x, int y, short *upper, short *lower)
{
int i, j;
short sectorlist[16];
int sln = 0;
short SpriteNum, Next;
SPRITEp sp;
// keep a list of the last stacked sectors the view was in and
// check those fisrt
sln = 0;
for (i = 0; i < (int)SIZ(GlobStackSect); i++)
{
// will not hurt if GlobStackSect is invalid - inside checks for this
if (inside(x, y, GlobStackSect[i]) == 1)
{
SWBOOL found = FALSE;
TRAVERSE_SPRITE_SECT(headspritesect[GlobStackSect[i]], SpriteNum, Next)
{
sp = &sprite[SpriteNum];
if (sp->statnum == STAT_FAF &&
(sp->hitag >= VIEW_LEVEL1 && sp->hitag <= VIEW_LEVEL6)
&& sp->lotag == match)
{
found = TRUE;
}
}
if (!found)
continue;
sectorlist[sln] = GlobStackSect[i];
sln++;
}
}
// didn't find it yet so test ALL sectors
if (sln < 2)
{
sln = 0;
for (i = numsectors - 1; i >= 0; i--)
{
if (inside(x, y, (short) i) == 1)
{
SWBOOL found = FALSE;
TRAVERSE_SPRITE_SECT(headspritesect[i], SpriteNum, Next)
{
sp = &sprite[SpriteNum];
if (sp->statnum == STAT_FAF &&
(sp->hitag >= VIEW_LEVEL1 && sp->hitag <= VIEW_LEVEL6)
&& sp->lotag == match)
{
found = TRUE;
}
}
if (!found)
continue;
sectorlist[sln] = i;
if (sln < (int)SIZ(GlobStackSect))
GlobStackSect[sln] = i;
sln++;
}
}
}
// might not find ANYTHING if not tagged right
if (sln == 0)
{
*upper = -1;
*lower = -1;
return;
}
else
// inside will somtimes find that you are in two different sectors if the x,y
// is exactly on a sector line.
if (sln > 2)
{
//DSPRINTF(ds, "TOO MANY SECTORS FOUND: x=%d, y=%d, match=%d, num sectors %d, %d, %d, %d, %d, %d", x, y, match, sln, sectorlist[0], sectorlist[1], sectorlist[2], sectorlist[3], sectorlist[4]);
MONO_PRINT(ds);
// try again moving the x,y pos around until you only get two sectors
GetUpperLowerSector(match, x - 1, y, upper, lower);
}
if (sln == 2)
{
if (sector[sectorlist[0]].floorz < sector[sectorlist[1]].floorz)
{
// swap
// make sectorlist[0] the LOW sector
short hold;
hold = sectorlist[0];
sectorlist[0] = sectorlist[1];
sectorlist[1] = hold;
}
*lower = sectorlist[0];
*upper = sectorlist[1];
}
}
SWBOOL
FindCeilingView(short match, int32_t* x, int32_t* y, int32_t z, int16_t* sectnum)
{
int xoff = 0;
int yoff = 0;
short i, nexti;
SPRITEp sp = NULL;
short top_sprite = -1;
int pix_diff;
int newz;
save.zcount = 0;
// Search Stat List For closest ceiling view sprite
// Get the match, xoff, yoff from this point
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->hitag == VIEW_THRU_CEILING && sp->lotag == match)
{
xoff = *x - sp->x;
yoff = *y - sp->y;
break;
}
}
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->lotag == match)
{
// determine x,y position
if (sp->hitag == VIEW_THRU_FLOOR)
{
short upper, lower;
*x = sp->x + xoff;
*y = sp->y + yoff;
// get new sector
GetUpperLowerSector(match, *x, *y, &upper, &lower);
*sectnum = upper;
break;
}
}
}
if (*sectnum < 0)
return FALSE;
ASSERT(sp);
ASSERT(sp->hitag == VIEW_THRU_FLOOR);
pix_diff = labs(z - sector[sp->sectnum].floorz) >> 8;
newz = sector[sp->sectnum].floorz + ((pix_diff / 128) + 1) * Z(128);
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->lotag == match)
{
// move lower levels ceilings up for the correct view
if (sp->hitag == VIEW_LEVEL2)
{
// save it off
save.sectnum[save.zcount] = sp->sectnum;
save.zval[save.zcount] = sector[sp->sectnum].floorz;
save.pic[save.zcount] = sector[sp->sectnum].floorpicnum;
save.slope[save.zcount] = sector[sp->sectnum].floorheinum;
sector[sp->sectnum].floorz = newz;
// don't change FAF_MIRROR_PIC - ConnectArea
if (sector[sp->sectnum].floorpicnum != FAF_MIRROR_PIC)
sector[sp->sectnum].floorpicnum = FAF_MIRROR_PIC+1;
sector[sp->sectnum].floorheinum = 0;
save.zcount++;
PRODUCTION_ASSERT(save.zcount < ZMAX);
}
}
}
return TRUE;
}
SWBOOL
FindFloorView(short match, int32_t* x, int32_t* y, int32_t z, int16_t* sectnum)
{
int xoff = 0;
int yoff = 0;
short i, nexti;
SPRITEp sp = NULL;
int newz;
int pix_diff;
save.zcount = 0;
// Search Stat List For closest ceiling view sprite
// Get the match, xoff, yoff from this point
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->hitag == VIEW_THRU_FLOOR && sp->lotag == match)
{
xoff = *x - sp->x;
yoff = *y - sp->y;
break;
}
}
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->lotag == match)
{
// determine x,y position
if (sp->hitag == VIEW_THRU_CEILING)
{
short upper, lower;
*x = sp->x + xoff;
*y = sp->y + yoff;
// get new sector
GetUpperLowerSector(match, *x, *y, &upper, &lower);
*sectnum = lower;
break;
}
}
}
if (*sectnum < 0)
return FALSE;
ASSERT(sp);
ASSERT(sp->hitag == VIEW_THRU_CEILING);
// move ceiling multiple of 128 so that the wall tile will line up
pix_diff = labs(z - sector[sp->sectnum].ceilingz) >> 8;
newz = sector[sp->sectnum].ceilingz - ((pix_diff / 128) + 1) * Z(128);
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->lotag == match)
{
// move upper levels floors down for the correct view
if (sp->hitag == VIEW_LEVEL1)
{
// save it off
save.sectnum[save.zcount] = sp->sectnum;
save.zval[save.zcount] = sector[sp->sectnum].ceilingz;
save.pic[save.zcount] = sector[sp->sectnum].ceilingpicnum;
save.slope[save.zcount] = sector[sp->sectnum].ceilingheinum;
sector[sp->sectnum].ceilingz = newz;
// don't change FAF_MIRROR_PIC - ConnectArea
if (sector[sp->sectnum].ceilingpicnum != FAF_MIRROR_PIC)
sector[sp->sectnum].ceilingpicnum = FAF_MIRROR_PIC+1;
sector[sp->sectnum].ceilingheinum = 0;
save.zcount++;
PRODUCTION_ASSERT(save.zcount < ZMAX);
}
}
}
return TRUE;
}
short
ViewSectorInScene(short cursectnum, short type, short level)
{
int i, nexti;
int j, nextj;
SPRITEp sp;
SPRITEp sp2;
int cz, fz;
short match;
TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF], i, nexti)
{
sp = &sprite[i];
if (sp->hitag == level)
{
if (cursectnum == sp->sectnum)
{
// ignore case if sprite is pointing up
if (sp->ang == 1536)
continue;
// only gets to here is sprite is pointing down
// found a potential match
match = sp->lotag;
if (!PicInView(FAF_MIRROR_PIC, TRUE))
return -1;
return match;
}
}
}
return -1;
}
void
DrawOverlapRoom(int tx, int ty, int tz, short tang, int thoriz, short tsectnum)
{
short i;
short match;
save.zcount = 0;
match = ViewSectorInScene(tsectnum, VIEW_THRU_CEILING, VIEW_LEVEL1);
if (match != -1)
{
FindCeilingView(match, &tx, &ty, tz, &tsectnum);
if (tsectnum < 0)
return;
drawrooms(tx, ty, tz, tang, thoriz, tsectnum);
//FAF_DrawRooms(tx, ty, tz, tang, thoriz, tsectnum);
// reset Z's
for (i = 0; i < save.zcount; i++)
{
sector[save.sectnum[i]].floorz = save.zval[i];
sector[save.sectnum[i]].floorpicnum = save.pic[i];
sector[save.sectnum[i]].floorheinum = save.slope[i];
}
analyzesprites(tx, ty, tz, FALSE);
post_analyzesprites();
renderDrawMasks();
}
else
{
match = ViewSectorInScene(tsectnum, VIEW_THRU_FLOOR, VIEW_LEVEL2);
if (match != -1)
{
FindFloorView(match, &tx, &ty, tz, &tsectnum);
if (tsectnum < 0)
return;
drawrooms(tx, ty, tz, tang, thoriz, tsectnum);
//FAF_DrawRooms(tx, ty, tz, tang, thoriz, tsectnum);
// reset Z's
for (i = 0; i < save.zcount; i++)
{
sector[save.sectnum[i]].ceilingz = save.zval[i];
sector[save.sectnum[i]].ceilingpicnum = save.pic[i];
sector[save.sectnum[i]].ceilingheinum = save.slope[i];
}
analyzesprites(tx, ty, tz, FALSE);
post_analyzesprites();
renderDrawMasks();
}
}
}