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raze-gles/source/blood/src/db.cpp

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- added NBlood source.
2019-09-19 22:42:45 +00:00
//-------------------------------------------------------------------------
/*
Copyright (C) 2010-2019 EDuke32 developers and contributors
Copyright (C) 2019 Nuke.YKT
This file is part of NBlood.
NBlood 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 "build.h"
#ifdef POLYMER
#include "polymer.h"
#endif
#include "compat.h"
#include "common_game.h"
#include "crc32.h"
wip # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/blood.cpp # source/blood/src/blood.h # source/blood/src/gui.cpp # source/blood/src/m32def.cpp # source/blood/src/m32def.h # source/blood/src/m32exec.cpp # source/blood/src/mapedit.cpp
2019-06-27 04:33:22 +00:00
//#include "actor.h"
#include "globals.h"
- added NBlood source.
2019-09-19 22:42:45 +00:00
#include "db.h"
#include "iob.h"
unsigned short gStatCount[kMaxStatus + 1];
XSPRITE xsprite[kMaxXSprites];
XSECTOR xsector[kMaxXSectors];
XWALL xwall[kMaxXWalls];
wip # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/blood.cpp # source/blood/src/blood.h # source/blood/src/gui.cpp # source/blood/src/m32def.cpp # source/blood/src/m32def.h # source/blood/src/m32exec.cpp # source/blood/src/mapedit.cpp
2019-06-27 04:33:22 +00:00
SPRITEHIT gSpriteHit[kMaxXSprites];
- added NBlood source.
2019-09-19 22:42:45 +00:00
int xvel[kMaxSprites], yvel[kMaxSprites], zvel[kMaxSprites];
Increase build objects count max size # Conflicts: # source/blood/src/mapedit.cpp
2019-06-28 12:24:46 +00:00
char qsprite_filler[kMaxSprites], qsector_filler[kMaxSectors];
- added NBlood source.
2019-09-19 22:42:45 +00:00
int gVisibility;
const char *gItemText[] = {
"Skull Key",
"Eye Key",
"Fire Key",
"Dagger Key",
"Spider Key",
"Moon Key",
"Key 7",
"Doctor's Bag",
"Medicine Pouch",
"Life Essence",
"Life Seed",
"Red Potion",
"Feather Fall",
"Limited Invisibility",
"INVULNERABILITY",
"Boots of Jumping",
"Raven Flight",
"Guns Akimbo",
"Diving Suit",
"Gas mask",
"Clone",
"Crystal Ball",
"Decoy",
"Doppleganger",
"Reflective shots",
"Beast Vision",
"ShadowCloak",
"Rage shroom",
"Delirium Shroom",
"Grow shroom",
"Shrink shroom",
"Death mask",
"Wine Goblet",
"Wine Bottle",
"Skull Grail",
"Silver Grail",
"Tome",
"Black Chest",
"Wooden Chest",
"Asbestos Armor",
"Basic Armor",
"Body Armor",
"Fire Armor",
"Spirit Armor",
"Super Armor",
"Blue Team Base",
"Red Team Base",
"Blue Flag",
"Red Flag",
"DUMMY",
"Level map",
};
const char *gAmmoText[] = {
"Spray can",
"Bundle of TNT*",
"Bundle of TNT",
"Case of TNT",
"Proximity Detonator",
"Remote Detonator",
"Trapped Soul",
"4 shotgun shells",
"Box of shotgun shells",
"A few bullets",
"Voodoo Doll",
"OBSOLETE",
"Full drum of bullets",
"Tesla Charge",
"OBSOLETE",
"OBSOLETE",
"Flares",
"OBSOLETE",
"OBSOLETE",
"Gasoline Can",
NULL,
};
const char *gWeaponText[] = {
"RANDOM",
"Sawed-off",
"Tommy Gun",
"Flare Pistol",
"Voodoo Doll",
"Tesla Cannon",
"Napalm Launcher",
"Pitchfork",
"Spray Can",
"Dynamite",
"Life Leech",
};
void dbCrypt(char *pPtr, int nLength, int nKey)
{
for (int i = 0; i < nLength; i++)
{
pPtr[i] = pPtr[i] ^ nKey;
nKey++;
}
}
void InsertSpriteSect(int nSprite, int nSector)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
dassert(nSector >= 0 && nSector < kMaxSectors);
int nOther = headspritesect[nSector];
if (nOther >= 0)
{
prevspritesect[nSprite] = prevspritesect[nOther];
nextspritesect[nSprite] = -1;
nextspritesect[prevspritesect[nOther]] = nSprite;
prevspritesect[nOther] = nSprite;
}
else
{
prevspritesect[nSprite] = nSprite;
nextspritesect[nSprite] = -1;
headspritesect[nSector] = nSprite;
}
sprite[nSprite].sectnum = nSector;
}
void RemoveSpriteSect(int nSprite)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
int nSector = sprite[nSprite].sectnum;
dassert(nSector >= 0 && nSector < kMaxSectors);
int nOther = nextspritesect[nSprite];
if (nOther < 0)
{
nOther = headspritesect[nSector];
}
prevspritesect[nOther] = prevspritesect[nSprite];
if (headspritesect[nSector] != nSprite)
{
nextspritesect[prevspritesect[nSprite]] = nextspritesect[nSprite];
}
else
{
headspritesect[nSector] = nextspritesect[nSprite];
}
sprite[nSprite].sectnum = -1;
}
void InsertSpriteStat(int nSprite, int nStat)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
dassert(nStat >= 0 && nStat <= kMaxStatus);
int nOther = headspritestat[nStat];
if (nOther >= 0)
{
prevspritestat[nSprite] = prevspritestat[nOther];
nextspritestat[nSprite] = -1;
nextspritestat[prevspritestat[nOther]] = nSprite;
prevspritestat[nOther] = nSprite;
}
else
{
prevspritestat[nSprite] = nSprite;
nextspritestat[nSprite] = -1;
headspritestat[nStat] = nSprite;
}
sprite[nSprite].statnum = nStat;
gStatCount[nStat]++;
}
void RemoveSpriteStat(int nSprite)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
int nStat = sprite[nSprite].statnum;
dassert(nStat >= 0 && nStat <= kMaxStatus);
int nOther = nextspritestat[nSprite];
if (nOther < 0)
{
nOther = headspritestat[nStat];
}
prevspritestat[nOther] = prevspritestat[nSprite];
if (headspritestat[nStat] != nSprite)
{
nextspritestat[prevspritestat[nSprite]] = nextspritestat[nSprite];
}
else
{
headspritestat[nStat] = nextspritestat[nSprite];
}
sprite[nSprite].statnum = -1;
gStatCount[nStat]--;
}
void qinitspritelists(void) // Replace
{
for (short i = 0; i <= kMaxSectors; i++)
{
headspritesect[i] = -1;
}
for (short i = 0; i <= kMaxStatus; i++)
{
headspritestat[i] = -1;
}
Increase build objects count max size # Conflicts: # source/blood/src/mapedit.cpp
2019-06-28 12:24:46 +00:00
int const nMaxSprites = bVanilla ? 4096 : kMaxSprites;
for (short i = 0; i < nMaxSprites; i++)
- added NBlood source.
2019-09-19 22:42:45 +00:00
{
sprite[i].sectnum = -1;
sprite[i].index = -1;
InsertSpriteStat(i, kMaxStatus);
}
memset(gStatCount, 0, sizeof(gStatCount));
Minor tweaks # Conflicts: # source/blood/src/m32common.cpp # source/blood/src/mapedit.cpp
2019-06-29 12:24:23 +00:00
Numsprites = 0;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
int InsertSprite(int nSector, int nStat)
{
int nSprite = headspritestat[kMaxStatus];
dassert(nSprite < kMaxSprites);
if (nSprite < 0)
{
return nSprite;
}
RemoveSpriteStat(nSprite);
spritetype *pSprite = &sprite[nSprite];
memset(&sprite[nSprite], 0, sizeof(spritetype));
InsertSpriteStat(nSprite, nStat);
InsertSpriteSect(nSprite, nSector);
pSprite->cstat = 128;
pSprite->clipdist = 32;
pSprite->xrepeat = pSprite->yrepeat = 64;
pSprite->owner = -1;
pSprite->extra = -1;
pSprite->index = nSprite;
xvel[nSprite] = yvel[nSprite] = zvel[nSprite] = 0;
Minor tweaks # Conflicts: # source/blood/src/m32common.cpp # source/blood/src/mapedit.cpp
2019-06-29 12:24:23 +00:00
Numsprites++;
- added NBlood source.
2019-09-19 22:42:45 +00:00
return nSprite;
}
int qinsertsprite(short nSector, short nStat) // Replace
{
return InsertSprite(nSector, nStat);
}
int DeleteSprite(int nSprite)
{
if (sprite[nSprite].extra > 0)
{
dbDeleteXSprite(sprite[nSprite].extra);
}
dassert(sprite[nSprite].statnum >= 0 && sprite[nSprite].statnum < kMaxStatus);
RemoveSpriteStat(nSprite);
dassert(sprite[nSprite].sectnum >= 0 && sprite[nSprite].sectnum < kMaxSectors);
RemoveSpriteSect(nSprite);
InsertSpriteStat(nSprite, kMaxStatus);
Minor tweaks # Conflicts: # source/blood/src/m32common.cpp # source/blood/src/mapedit.cpp
2019-06-29 12:24:23 +00:00
Numsprites--;
- added NBlood source.
2019-09-19 22:42:45 +00:00
return nSprite;
}
int qdeletesprite(short nSprite) // Replace
{
return DeleteSprite(nSprite);
}
int ChangeSpriteSect(int nSprite, int nSector)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
dassert(nSector >= 0 && nSector < kMaxSectors);
dassert(sprite[nSprite].sectnum >= 0 && sprite[nSprite].sectnum < kMaxSectors);
RemoveSpriteSect(nSprite);
InsertSpriteSect(nSprite, nSector);
return 0;
}
int qchangespritesect(short nSprite, short nSector)
{
return ChangeSpriteSect(nSprite, nSector);
}
int ChangeSpriteStat(int nSprite, int nStatus)
{
dassert(nSprite >= 0 && nSprite < kMaxSprites);
dassert(nStatus >= 0 && nStatus < kMaxStatus);
dassert(sprite[nSprite].statnum >= 0 && sprite[nSprite].statnum < kMaxStatus);
dassert(sprite[nSprite].sectnum >= 0 && sprite[nSprite].sectnum < kMaxSectors);
RemoveSpriteStat(nSprite);
InsertSpriteStat(nSprite, nStatus);
return 0;
}
int qchangespritestat(short nSprite, short nStatus)
{
return ChangeSpriteStat(nSprite, nStatus);
}
unsigned short nextXSprite[kMaxXSprites];
unsigned short nextXWall[kMaxXWalls];
unsigned short nextXSector[kMaxXSectors];
void InitFreeList(unsigned short *pList, int nCount)
{
for (int i = 1; i < nCount; i++)
{
pList[i] = i-1;
}
pList[0] = nCount - 1;
}
void InsertFree(unsigned short *pList, int nIndex)
{
pList[nIndex] = pList[0];
pList[0] = nIndex;
}
unsigned short dbInsertXSprite(int nSprite)
{
int nXSprite = nextXSprite[0];
nextXSprite[0] = nextXSprite[nXSprite];
if (nXSprite == 0)
{
ThrowError("Out of free XSprites");
}
memset(&xsprite[nXSprite], 0, sizeof(XSPRITE));
if (!bVanilla)
memset(&gSpriteHit[nXSprite], 0, sizeof(SPRITEHIT));
xsprite[nXSprite].reference = nSprite;
sprite[nSprite].extra = nXSprite;
return nXSprite;
}
void dbDeleteXSprite(int nXSprite)
{
dassert(xsprite[nXSprite].reference >= 0);
dassert(sprite[xsprite[nXSprite].reference].extra == nXSprite);
InsertFree(nextXSprite, nXSprite);
sprite[xsprite[nXSprite].reference].extra = -1;
xsprite[nXSprite].reference = -1;
}
unsigned short dbInsertXWall(int nWall)
{
int nXWall = nextXWall[0];
nextXWall[0] = nextXWall[nXWall];
if (nXWall == 0)
{
ThrowError("Out of free XWalls");
}
memset(&xwall[nXWall], 0, sizeof(XWALL));
xwall[nXWall].reference = nWall;
wall[nWall].extra = nXWall;
return nXWall;
}
void dbDeleteXWall(int nXWall)
{
dassert(xwall[nXWall].reference >= 0);
InsertFree(nextXWall, nXWall);
wall[xwall[nXWall].reference].extra = -1;
xwall[nXWall].reference = -1;
}
unsigned short dbInsertXSector(int nSector)
{
int nXSector = nextXSector[0];
nextXSector[0] = nextXSector[nXSector];
if (nXSector == 0)
{
ThrowError("Out of free XSectors");
}
memset(&xsector[nXSector], 0, sizeof(XSECTOR));
xsector[nXSector].reference = nSector;
sector[nSector].extra = nXSector;
return nXSector;
}
void dbDeleteXSector(int nXSector)
{
dassert(xsector[nXSector].reference >= 0);
InsertFree(nextXSector, nXSector);
sector[xsector[nXSector].reference].extra = -1;
xsector[nXSector].reference = -1;
}
void dbXSpriteClean(void)
{
for (int i = 0; i < kMaxSprites; i++)
{
int nXSprite = sprite[i].extra;
if (nXSprite == 0)
{
sprite[i].extra = -1;
}
if (sprite[i].statnum < kMaxStatus && nXSprite > 0)
{
dassert(nXSprite < kMaxXSprites);
if (xsprite[nXSprite].reference != i)
{
int nXSprite2 = dbInsertXSprite(i);
memcpy(&xsprite[nXSprite2], &xsprite[nXSprite], sizeof(XSPRITE));
xsprite[nXSprite2].reference = i;
}
}
}
for (int i = 1; i < kMaxXSprites; i++)
{
int nSprite = xsprite[i].reference;
if (nSprite >= 0)
{
dassert(nSprite < kMaxSprites);
if (sprite[nSprite].statnum >= kMaxStatus || sprite[nSprite].extra != i)
{
InsertFree(nextXSprite, i);
xsprite[i].reference = -1;
}
}
}
}
void dbXWallClean(void)
{
for (int i = 0; i < numwalls; i++)
{
int nXWall = wall[i].extra;
if (nXWall == 0)
{
wall[i].extra = -1;
}
if (nXWall > 0)
{
dassert(nXWall < kMaxXWalls);
if (xwall[nXWall].reference == -1)
{
wall[i].extra = -1;
}
else
{
xwall[nXWall].reference = i;
}
}
}
for (int i = 0; i < numwalls; i++)
{
int nXWall = wall[i].extra;
if (nXWall > 0)
{
dassert(nXWall < kMaxXWalls);
if (xwall[nXWall].reference != i)
{
int nXWall2 = dbInsertXWall(i);
memcpy(&xwall[nXWall2], &xwall[nXWall], sizeof(XWALL));
xwall[nXWall2].reference = i;
}
}
}
for (int i = 1; i < kMaxXWalls; i++)
{
int nWall = xwall[i].reference;
if (nWall >= 0)
{
dassert(nWall < kMaxWalls);
if (nWall >= numwalls || wall[nWall].extra != i)
{
InsertFree(nextXWall, i);
xwall[i].reference = -1;
}
}
}
}
void dbXSectorClean(void)
{
for (int i = 0; i < numsectors; i++)
{
int nXSector = sector[i].extra;
if (nXSector == 0)
{
sector[i].extra = -1;
}
if (nXSector > 0)
{
dassert(nXSector < kMaxXSectors);
if (xsector[nXSector].reference == -1)
{
sector[i].extra = -1;
}
else
{
xsector[nXSector].reference = i;
}
}
}
for (int i = 0; i < numsectors; i++)
{
int nXSector = sector[i].extra;
if (nXSector > 0)
{
dassert(nXSector < kMaxXSectors);
if (xsector[nXSector].reference != i)
{
int nXSector2 = dbInsertXSector(i);
memcpy(&xsector[nXSector2], &xsector[nXSector], sizeof(XSECTOR));
xsector[nXSector2].reference = i;
}
}
}
for (int i = 1; i < kMaxXSectors; i++)
{
int nSector = xsector[i].reference;
if (nSector >= 0)
{
dassert(nSector < kMaxSectors);
if (nSector >= numsectors || sector[nSector].extra != i)
{
InsertFree(nextXSector, i);
xsector[i].reference = -1;
}
}
}
}
void dbInit(void)
{
InitFreeList(nextXSprite, kMaxXSprites);
for (int i = 1; i < kMaxXSprites; i++)
{
xsprite[i].reference = -1;
}
InitFreeList(nextXWall, kMaxXWalls);
for (int i = 1; i < kMaxXWalls; i++)
{
xwall[i].reference = -1;
}
InitFreeList(nextXSector, kMaxXSectors);
for (int i = 1; i < kMaxXSectors; i++)
{
xsector[i].reference = -1;
}
initspritelists();
for (int i = 0; i < kMaxSprites; i++)
{
sprite[i].cstat = 128;
}
}
void PropagateMarkerReferences(void)
{
int nSprite, nNextSprite;
for (nSprite = headspritestat[10]; nSprite != -1; nSprite = nNextSprite)
{
nNextSprite = nextspritestat[nSprite];
switch (sprite[nSprite].type)
{
case 8:
{
int nOwner = sprite[nSprite].owner;
if (nOwner >= 0 && nOwner < numsectors)
{
int nXSector = sector[nOwner].extra;
if (nXSector > 0 && nXSector < kMaxXSectors)
{
xsector[nXSector].at2c_0 = nSprite;
continue;
}
}
break;
}
case 3:
{
int nOwner = sprite[nSprite].owner;
if (nOwner >= 0 && nOwner < numsectors)
{
int nXSector = sector[nOwner].extra;
if (nXSector > 0 && nXSector < kMaxXSectors)
{
xsector[nXSector].at2c_0 = nSprite;
continue;
}
}
break;
}
case 4:
{
int nOwner = sprite[nSprite].owner;
if (nOwner >= 0 && nOwner < numsectors)
{
int nXSector = sector[nOwner].extra;
if (nXSector > 0 && nXSector < kMaxXSectors)
{
xsector[nXSector].at2e_0 = nSprite;
continue;
}
}
break;
}
case 5:
{
int nOwner = sprite[nSprite].owner;
if (nOwner >= 0 && nOwner < numsectors)
{
int nXSector = sector[nOwner].extra;
if (nXSector > 0 && nXSector < kMaxXSectors)
{
xsector[nXSector].at2c_0 = nSprite;
continue;
}
}
break;
}
}
DeleteSprite(nSprite);
}
}
bool byte_1A76C6, byte_1A76C7, byte_1A76C8;
MAPHEADER2 byte_19AE44;
unsigned int dbReadMapCRC(const char *pPath)
{
byte_1A76C7 = 0;
byte_1A76C8 = 0;
DICTNODE *pNode = gSysRes.Lookup(pPath, "MAP");
if (!pNode)
{
ThrowError("Error opening map file %s", pPath);
}
char *pData = (char*)gSysRes.Lock(pNode);
int nSize = pNode->size;
MAPSIGNATURE header;
IOBuffer(nSize, pData).Read(&header, 6);
#if B_BIG_ENDIAN == 1
header.version = B_LITTLE16(header.version);
#endif
if (memcmp(header.signature, "BLM\x1a", 4))
{
ThrowError("Map file corrupted");
}
if ((header.version & 0xff00) == 0x600)
{
}
else if ((header.version & 0xff00) == 0x700)
{
byte_1A76C8 = 1;
}
else
{
ThrowError("Map file is wrong version");
}
unsigned int nCRC = *(unsigned int*)(pData+nSize-4);
gSysRes.Unlock(pNode);
return nCRC;
}
int gMapRev, gSongId, gSkyCount;
//char byte_19AE44[128];
Semi-working map save
2019-06-29 15:37:04 +00:00
const int nXSectorSize = 60;
const int nXSpriteSize = 56;
const int nXWallSize = 24;
- added NBlood source.
2019-09-19 22:42:45 +00:00
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
int dbLoadMap(const char *pPath, int *pX, int *pY, int *pZ, short *pAngle, short *pSector, unsigned int *pCRC)
- added NBlood source.
2019-09-19 22:42:45 +00:00
{
int16_t tpskyoff[256];
memset(show2dsector, 0, sizeof(show2dsector));
memset(show2dwall, 0, sizeof(show2dwall));
memset(show2dsprite, 0, sizeof(show2dsprite));
#ifdef USE_OPENGL
Polymost_prepare_loadboard();
#endif
{
char name2[BMAX_PATH];
Bstrncpy(name2, pPath, BMAX_PATH);
Bstrupr(name2);
DICTNODE* pNode = *gSysRes.Probe(name2, "MAP");
if (pNode && pNode->flags & DICT_EXTERNAL)
{
gSysRes.RemoveNode(pNode);
}
}
DICTNODE *pNode = gSysRes.Lookup(pPath, "MAP");
if (!pNode)
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
char name2[BMAX_PATH];
Bstrncpy(name2, pPath, BMAX_PATH);
ChangeExtension(name2, "");
pNode = gSysRes.Lookup(name2, "MAP");
}
if (!pNode)
{
initprintf("Error opening map file %s", pPath);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
char *pData = (char*)gSysRes.Lock(pNode);
int nSize = pNode->size;
MAPSIGNATURE header;
IOBuffer IOBuffer1 = IOBuffer(nSize, pData);
IOBuffer1.Read(&header, 6);
#if B_BIG_ENDIAN == 1
header.version = B_LITTLE16(header.version);
#endif
if (memcmp(header.signature, "BLM\x1a", 4))
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Map file corrupted");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
byte_1A76C8 = 0;
if ((header.version & 0xff00) == 0x600)
{
}
else if ((header.version & 0xff00) == 0x700)
{
byte_1A76C8 = 1;
}
else
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Map file is wrong version");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
MAPHEADER mapHeader;
IOBuffer1.Read(&mapHeader,37/* sizeof(mapHeader)*/);
if (mapHeader.at16 != 0 && mapHeader.at16 != 0x7474614d && mapHeader.at16 != 0x4d617474)
{
dbCrypt((char*)&mapHeader, sizeof(mapHeader), 0x7474614d);
byte_1A76C7 = 1;
}
#if B_BIG_ENDIAN == 1
mapHeader.at0 = B_LITTLE32(mapHeader.at0);
mapHeader.at4 = B_LITTLE32(mapHeader.at4);
mapHeader.at8 = B_LITTLE32(mapHeader.at8);
mapHeader.atc = B_LITTLE16(mapHeader.atc);
mapHeader.ate = B_LITTLE16(mapHeader.ate);
mapHeader.at10 = B_LITTLE16(mapHeader.at10);
mapHeader.at12 = B_LITTLE32(mapHeader.at12);
mapHeader.at16 = B_LITTLE32(mapHeader.at16);
mapHeader.at1b = B_LITTLE32(mapHeader.at1b);
mapHeader.at1f = B_LITTLE16(mapHeader.at1f);
mapHeader.at21 = B_LITTLE16(mapHeader.at21);
mapHeader.at23 = B_LITTLE16(mapHeader.at23);
#endif
psky_t *pSky = tileSetupSky(0);
pSky->horizfrac = 65536;
*pX = mapHeader.at0;
*pY = mapHeader.at4;
*pZ = mapHeader.at8;
*pAngle = mapHeader.atc;
*pSector = mapHeader.ate;
pSky->lognumtiles = mapHeader.at10;
gVisibility = g_visibility = mapHeader.at12;
gSongId = mapHeader.at16;
if (byte_1A76C8)
{
if (mapHeader.at16 == 0x7474614d || mapHeader.at16 == 0x4d617474)
{
byte_1A76C6 = 1;
}
else if (!mapHeader.at16)
{
byte_1A76C6 = 0;
}
else
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Corrupted Map file");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
}
else if (mapHeader.at16)
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Corrupted Map file");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
parallaxtype = mapHeader.at1a;
gMapRev = mapHeader.at1b;
numsectors = mapHeader.at1f;
numwalls = mapHeader.at21;
dbInit();
if (byte_1A76C8)
{
IOBuffer1.Read(&byte_19AE44, 128);
dbCrypt((char*)&byte_19AE44, 128, numwalls);
#if B_BIG_ENDIAN == 1
byte_19AE44.at40 = B_LITTLE32(byte_19AE44.at40);
byte_19AE44.at44 = B_LITTLE32(byte_19AE44.at44);
byte_19AE44.at48 = B_LITTLE32(byte_19AE44.at48);
#endif
}
else
{
memset(&byte_19AE44, 0, 128);
}
gSkyCount = 1<<pSky->lognumtiles;
IOBuffer1.Read(tpskyoff, gSkyCount*sizeof(tpskyoff[0]));
if (byte_1A76C8)
{
dbCrypt((char*)tpskyoff, gSkyCount*sizeof(tpskyoff[0]), gSkyCount*2);
}
for (int i = 0; i < ClipHigh(gSkyCount, MAXPSKYTILES); i++)
{
pSky->tileofs[i] = B_LITTLE16(tpskyoff[i]);
}
for (int i = 0; i < numsectors; i++)
{
sectortype *pSector = &sector[i];
IOBuffer1.Read(pSector, sizeof(sectortype));
if (byte_1A76C8)
{
dbCrypt((char*)pSector, sizeof(sectortype), gMapRev*sizeof(sectortype));
}
#if B_BIG_ENDIAN == 1
pSector->wallptr = B_LITTLE16(pSector->wallptr);
pSector->wallnum = B_LITTLE16(pSector->wallnum);
pSector->ceilingz = B_LITTLE32(pSector->ceilingz);
pSector->floorz = B_LITTLE32(pSector->floorz);
pSector->ceilingstat = B_LITTLE16(pSector->ceilingstat);
pSector->floorstat = B_LITTLE16(pSector->floorstat);
pSector->ceilingpicnum = B_LITTLE16(pSector->ceilingpicnum);
pSector->ceilingheinum = B_LITTLE16(pSector->ceilingheinum);
pSector->floorpicnum = B_LITTLE16(pSector->floorpicnum);
pSector->floorheinum = B_LITTLE16(pSector->floorheinum);
pSector->lotag = B_LITTLE16(pSector->lotag);
pSector->hitag = B_LITTLE16(pSector->hitag);
pSector->extra = B_LITTLE16(pSector->extra);
#endif
qsector_filler[i] = pSector->fogpal;
pSector->fogpal = 0;
if (sector[i].extra > 0)
{
char pBuffer[nXSectorSize];
int nXSector = dbInsertXSector(i);
XSECTOR *pXSector = &xsector[nXSector];
memset(pXSector, 0, sizeof(XSECTOR));
int nCount;
if (!byte_1A76C8)
{
nCount = nXSectorSize;
}
else
{
nCount = byte_19AE44.at48;
}
dassert(nCount <= nXSectorSize);
IOBuffer1.Read(pBuffer, nCount);
BitReader bitReader(pBuffer, nCount);
pXSector->reference = bitReader.readSigned(14);
pXSector->state = bitReader.readUnsigned(1);
pXSector->busy = bitReader.readUnsigned(17);
pXSector->data = bitReader.readUnsigned(16);
pXSector->txID = bitReader.readUnsigned(10);
pXSector->at7_2 = bitReader.readUnsigned(3);
pXSector->at7_5 = bitReader.readUnsigned(3);
pXSector->rxID = bitReader.readUnsigned(10);
pXSector->command = bitReader.readUnsigned(8);
pXSector->triggerOn = bitReader.readUnsigned(1);
pXSector->triggerOff = bitReader.readUnsigned(1);
pXSector->busyTimeA = bitReader.readUnsigned(12);
pXSector->waitTimeA = bitReader.readUnsigned(12);
pXSector->atd_4 = bitReader.readUnsigned(1);
pXSector->interruptable = bitReader.readUnsigned(1);
pXSector->amplitude = bitReader.readSigned(8);
pXSector->freq = bitReader.readUnsigned(8);
pXSector->atf_6 = bitReader.readUnsigned(1);
pXSector->atf_7 = bitReader.readUnsigned(1);
pXSector->phase = bitReader.readUnsigned(8);
pXSector->wave = bitReader.readUnsigned(4);
pXSector->shadeAlways = bitReader.readUnsigned(1);
pXSector->shadeFloor = bitReader.readUnsigned(1);
pXSector->shadeCeiling = bitReader.readUnsigned(1);
pXSector->shadeWalls = bitReader.readUnsigned(1);
pXSector->shade = bitReader.readSigned(8);
pXSector->panAlways = bitReader.readUnsigned(1);
pXSector->panFloor = bitReader.readUnsigned(1);
pXSector->panCeiling = bitReader.readUnsigned(1);
pXSector->Drag = bitReader.readUnsigned(1);
pXSector->Underwater = bitReader.readUnsigned(1);
pXSector->Depth = bitReader.readUnsigned(3);
pXSector->panVel = bitReader.readUnsigned(8);
pXSector->panAngle = bitReader.readUnsigned(11);
pXSector->at16_3 = bitReader.readUnsigned(1);
pXSector->decoupled = bitReader.readUnsigned(1);
pXSector->triggerOnce = bitReader.readUnsigned(1);
pXSector->at16_6 = bitReader.readUnsigned(1);
pXSector->Key = bitReader.readUnsigned(3);
pXSector->Push = bitReader.readUnsigned(1);
pXSector->Vector = bitReader.readUnsigned(1);
pXSector->Reserved = bitReader.readUnsigned(1);
pXSector->Enter = bitReader.readUnsigned(1);
pXSector->Exit = bitReader.readUnsigned(1);
pXSector->Wallpush = bitReader.readUnsigned(1);
pXSector->color = bitReader.readUnsigned(1);
pXSector->at18_1 = bitReader.readUnsigned(1);
pXSector->busyTimeB = bitReader.readUnsigned(12);
pXSector->waitTimeB = bitReader.readUnsigned(12);
pXSector->at1b_2 = bitReader.readUnsigned(1);
pXSector->at1b_3 = bitReader.readUnsigned(1);
pXSector->ceilpal = bitReader.readUnsigned(4);
pXSector->at1c_0 = bitReader.readSigned(32);
pXSector->at20_0 = bitReader.readSigned(32);
pXSector->at24_0 = bitReader.readSigned(32);
pXSector->at28_0 = bitReader.readSigned(32);
pXSector->at2c_0 = bitReader.readUnsigned(16);
pXSector->at2e_0 = bitReader.readUnsigned(16);
pXSector->Crush = bitReader.readUnsigned(1);
pXSector->at30_1 = bitReader.readUnsigned(8);
pXSector->at31_1 = bitReader.readUnsigned(8);
pXSector->at32_1 = bitReader.readUnsigned(8);
pXSector->damageType = bitReader.readUnsigned(3);
pXSector->floorpal = bitReader.readUnsigned(4);
pXSector->at34_0 = bitReader.readUnsigned(8);
pXSector->locked = bitReader.readUnsigned(1);
pXSector->windVel = bitReader.readUnsigned(10);
pXSector->windAng = bitReader.readUnsigned(11);
pXSector->windAlways = bitReader.readUnsigned(1);
pXSector->at37_7 = bitReader.readUnsigned(1);
pXSector->bobTheta = bitReader.readUnsigned(11);
pXSector->bobZRange = bitReader.readUnsigned(5);
pXSector->bobSpeed = bitReader.readSigned(12);
pXSector->bobAlways = bitReader.readUnsigned(1);
pXSector->bobFloor = bitReader.readUnsigned(1);
pXSector->bobCeiling = bitReader.readUnsigned(1);
pXSector->bobRotate = bitReader.readUnsigned(1);
xsector[sector[i].extra].reference = i;
xsector[sector[i].extra].busy = xsector[sector[i].extra].state<<16;
}
}
for (int i = 0; i < numwalls; i++)
{
walltype *pWall = &wall[i];
IOBuffer1.Read(pWall, sizeof(walltype));
if (byte_1A76C8)
{
dbCrypt((char*)pWall, sizeof(walltype), (gMapRev*sizeof(sectortype)) | 0x7474614d);
}
#if B_BIG_ENDIAN == 1
pWall->x = B_LITTLE32(pWall->x);
pWall->y = B_LITTLE32(pWall->y);
pWall->point2 = B_LITTLE16(pWall->point2);
pWall->nextwall = B_LITTLE16(pWall->nextwall);
pWall->nextsector = B_LITTLE16(pWall->nextsector);
pWall->cstat = B_LITTLE16(pWall->cstat);
pWall->picnum = B_LITTLE16(pWall->picnum);
pWall->overpicnum = B_LITTLE16(pWall->overpicnum);
pWall->lotag = B_LITTLE16(pWall->lotag);
pWall->hitag = B_LITTLE16(pWall->hitag);
pWall->extra = B_LITTLE16(pWall->extra);
#endif
if (wall[i].extra > 0)
{
char pBuffer[nXWallSize];
int nXWall = dbInsertXWall(i);
XWALL *pXWall = &xwall[nXWall];
memset(pXWall, 0, sizeof(XWALL));
int nCount;
if (!byte_1A76C8)
{
nCount = nXWallSize;
}
else
{
nCount = byte_19AE44.at44;
}
dassert(nCount <= nXWallSize);
IOBuffer1.Read(pBuffer, nCount);
BitReader bitReader(pBuffer, nCount);
pXWall->reference = bitReader.readSigned(14);
pXWall->state = bitReader.readUnsigned(1);
pXWall->busy = bitReader.readUnsigned(17);
pXWall->data = bitReader.readSigned(16);
pXWall->txID = bitReader.readUnsigned(10);
pXWall->at7_2 = bitReader.readUnsigned(6);
pXWall->rxID = bitReader.readUnsigned(10);
pXWall->command = bitReader.readUnsigned(8);
pXWall->triggerOn = bitReader.readUnsigned(1);
pXWall->triggerOff = bitReader.readUnsigned(1);
pXWall->busyTime = bitReader.readUnsigned(12);
pXWall->waitTime = bitReader.readUnsigned(12);
pXWall->restState = bitReader.readUnsigned(1);
pXWall->interruptable = bitReader.readUnsigned(1);
pXWall->panAlways = bitReader.readUnsigned(1);
pXWall->panXVel = bitReader.readSigned(8);
pXWall->panYVel = bitReader.readSigned(8);
pXWall->decoupled = bitReader.readUnsigned(1);
pXWall->triggerOnce = bitReader.readUnsigned(1);
pXWall->isTriggered = bitReader.readUnsigned(1);
pXWall->key = bitReader.readUnsigned(3);
pXWall->triggerPush = bitReader.readUnsigned(1);
pXWall->triggerVector = bitReader.readUnsigned(1);
pXWall->triggerReserved = bitReader.readUnsigned(1);
pXWall->at11_0 = bitReader.readUnsigned(2);
pXWall->xpanFrac = bitReader.readUnsigned(8);
pXWall->ypanFrac = bitReader.readUnsigned(8);
pXWall->locked = bitReader.readUnsigned(1);
pXWall->dudeLockout = bitReader.readUnsigned(1);
pXWall->at13_4 = bitReader.readUnsigned(4);
pXWall->at14_0 = bitReader.readUnsigned(32);
xwall[wall[i].extra].reference = i;
xwall[wall[i].extra].busy = xwall[wall[i].extra].state << 16;
}
}
initspritelists();
for (int i = 0; i < mapHeader.at23; i++)
{
RemoveSpriteStat(i);
spritetype *pSprite = &sprite[i];
IOBuffer1.Read(pSprite, sizeof(spritetype));
if (byte_1A76C8)
{
dbCrypt((char*)pSprite, sizeof(spritetype), (gMapRev*sizeof(spritetype)) | 0x7474614d);
}
#if B_BIG_ENDIAN == 1
pSprite->x = B_LITTLE32(pSprite->x);
pSprite->y = B_LITTLE32(pSprite->y);
pSprite->z = B_LITTLE32(pSprite->z);
pSprite->cstat = B_LITTLE16(pSprite->cstat);
pSprite->picnum = B_LITTLE16(pSprite->picnum);
pSprite->sectnum = B_LITTLE16(pSprite->sectnum);
pSprite->statnum = B_LITTLE16(pSprite->statnum);
pSprite->ang = B_LITTLE16(pSprite->ang);
pSprite->owner = B_LITTLE16(pSprite->owner);
pSprite->xvel = B_LITTLE16(pSprite->xvel);
pSprite->yvel = B_LITTLE16(pSprite->yvel);
pSprite->zvel = B_LITTLE16(pSprite->zvel);
pSprite->lotag = B_LITTLE16(pSprite->lotag);
pSprite->hitag = B_LITTLE16(pSprite->hitag);
pSprite->extra = B_LITTLE16(pSprite->extra);
#endif
// NoOne's extension bit
if (pSprite->hitag&1)
{
pSprite->hitag &= ~1;
pSprite->hitag |= kHitagExtBit;
}
InsertSpriteSect(i, sprite[i].sectnum);
InsertSpriteStat(i, sprite[i].statnum);
Minor tweaks # Conflicts: # source/blood/src/m32common.cpp # source/blood/src/mapedit.cpp
2019-06-29 12:24:23 +00:00
Numsprites++;
- added NBlood source.
2019-09-19 22:42:45 +00:00
sprite[i].index = i;
qsprite_filler[i] = pSprite->blend;
pSprite->blend = 0;
if (sprite[i].extra > 0)
{
char pBuffer[nXSpriteSize];
int nXSprite = dbInsertXSprite(i);
XSPRITE *pXSprite = &xsprite[nXSprite];
memset(pXSprite, 0, sizeof(XSPRITE));
int nCount;
if (!byte_1A76C8)
{
nCount = nXSpriteSize;
}
else
{
nCount = byte_19AE44.at40;
}
dassert(nCount <= nXSpriteSize);
IOBuffer1.Read(pBuffer, nCount);
BitReader bitReader(pBuffer, nCount);
pXSprite->reference = bitReader.readSigned(14);
pXSprite->state = bitReader.readUnsigned(1);
pXSprite->busy = bitReader.readUnsigned(17);
pXSprite->txID = bitReader.readUnsigned(10);
pXSprite->rxID = bitReader.readUnsigned(10);
pXSprite->command = bitReader.readUnsigned(8);
pXSprite->triggerOn = bitReader.readUnsigned(1);
pXSprite->triggerOff = bitReader.readUnsigned(1);
pXSprite->wave = bitReader.readUnsigned(2);
pXSprite->busyTime = bitReader.readUnsigned(12);
pXSprite->waitTime = bitReader.readUnsigned(12);
pXSprite->restState = bitReader.readUnsigned(1);
pXSprite->Interrutable = bitReader.readUnsigned(1);
pXSprite->atb_2 = bitReader.readUnsigned(2);
pXSprite->respawnPending = bitReader.readUnsigned(2);
pXSprite->atb_6 = bitReader.readUnsigned(1);
pXSprite->lT = bitReader.readUnsigned(1);
pXSprite->dropMsg = bitReader.readUnsigned(8);
pXSprite->Decoupled = bitReader.readUnsigned(1);
pXSprite->triggerOnce = bitReader.readUnsigned(1);
pXSprite->isTriggered = bitReader.readUnsigned(1);
pXSprite->key = bitReader.readUnsigned(3);
pXSprite->Push = bitReader.readUnsigned(1);
pXSprite->Vector = bitReader.readUnsigned(1);
pXSprite->Impact = bitReader.readUnsigned(1);
pXSprite->Pickup = bitReader.readUnsigned(1);
pXSprite->Touch = bitReader.readUnsigned(1);
pXSprite->Sight = bitReader.readUnsigned(1);
pXSprite->Proximity = bitReader.readUnsigned(1);
pXSprite->ate_5 = bitReader.readUnsigned(2);
pXSprite->lSkill = bitReader.readUnsigned(5);
pXSprite->lS = bitReader.readUnsigned(1);
pXSprite->lB = bitReader.readUnsigned(1);
pXSprite->lC = bitReader.readUnsigned(1);
pXSprite->DudeLockout = bitReader.readUnsigned(1);
pXSprite->data1 = bitReader.readSigned(16);
pXSprite->data2 = bitReader.readSigned(16);
pXSprite->data3 = bitReader.readSigned(16);
pXSprite->goalAng = bitReader.readUnsigned(11);
pXSprite->dodgeDir = bitReader.readSigned(2);
pXSprite->locked = bitReader.readUnsigned(1);
pXSprite->medium = bitReader.readUnsigned(2);
pXSprite->respawn = bitReader.readUnsigned(2);
pXSprite->data4 = bitReader.readUnsigned(16);
pXSprite->at1a_2 = bitReader.readUnsigned(6);
pXSprite->lockMsg = bitReader.readUnsigned(8);
pXSprite->health = bitReader.readUnsigned(12);
pXSprite->dudeDeaf = bitReader.readUnsigned(1);
pXSprite->dudeAmbush = bitReader.readUnsigned(1);
pXSprite->dudeGuard = bitReader.readUnsigned(1);
pXSprite->dudeFlag4 = bitReader.readUnsigned(1);
pXSprite->target = bitReader.readSigned(16);
pXSprite->targetX = bitReader.readSigned(32);
pXSprite->targetY = bitReader.readSigned(32);
pXSprite->targetZ = bitReader.readSigned(32);
pXSprite->burnTime = bitReader.readUnsigned(16);
pXSprite->burnSource = bitReader.readSigned(16);
pXSprite->height = bitReader.readUnsigned(16);
pXSprite->stateTimer = bitReader.readUnsigned(16);
pXSprite->aiState = NULL;
bitReader.skipBits(32);
xsprite[sprite[i].extra].reference = i;
xsprite[sprite[i].extra].busy = xsprite[sprite[i].extra].state << 16;
if (!byte_1A76C8)
{
xsprite[sprite[i].extra].lT |= xsprite[sprite[i].extra].lB;
}
}
if ((sprite[i].cstat & 0x30) == 0x30)
{
sprite[i].cstat &= ~0x30;
}
}
unsigned int nCRC;
IOBuffer1.Read(&nCRC, 4);
#if B_BIG_ENDIAN == 1
nCRC = B_LITTLE32(nCRC);
#endif
if (Bcrc32(pData, nSize-4, 0) != nCRC)
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Map File does not match CRC");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
if (pCRC)
*pCRC = nCRC;
- added NBlood source.
2019-09-19 22:42:45 +00:00
gSysRes.Unlock(pNode);
PropagateMarkerReferences();
if (byte_1A76C8)
{
if (gSongId == 0x7474614d || gSongId == 0x4d617474)
{
byte_1A76C6 = 1;
}
else if (!gSongId)
{
byte_1A76C6 = 0;
}
else
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Corrupted Map file");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
}
else if (gSongId != 0)
{
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
initprintf("Corrupted Map file");
gSysRes.Unlock(pNode);
return -1;
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
#ifdef POLYMER
if (videoGetRenderMode() == REND_POLYMER)
polymer_loadboard();
#endif
if ((header.version & 0xff00) == 0x600)
{
switch (header.version&0xff)
{
case 0:
for (int i = 0; i < numsectors; i++)
{
sectortype *pSector = &sector[i];
if (pSector->extra > 0)
{
XSECTOR *pXSector = &xsector[pSector->extra];
pXSector->busyTimeB = pXSector->busyTimeA;
if (pXSector->busyTimeA > 0)
{
if (!pXSector->atd_4)
{
pXSector->atf_6 = 1;
}
else
{
pXSector->waitTimeB = pXSector->busyTimeA;
pXSector->waitTimeA = 0;
pXSector->atf_7 = 1;
}
}
}
}
fallthrough__;
case 1:
for (int i = 0; i < numsectors; i++)
{
sectortype *pSector = &sector[i];
if (pSector->extra > 0)
{
XSECTOR *pXSector = &xsector[pSector->extra];
pXSector->freq >>= 1;
}
}
fallthrough__;
case 2:
for (int i = 0; i < kMaxSprites; i++)
{
}
break;
}
}
Enable TROR code and rotated wall cstat bit for blood
2019-06-26 13:20:03 +00:00
TROR related tweaks # Conflicts: # source/blood/src/mirrors.cpp
2019-06-26 14:02:01 +00:00
#ifdef YAX_ENABLE
Add TROR rendering # Conflicts: # source/blood/src/mapedit.cpp # source/build/include/editor.h # source/build/include/polymer.h # source/build/src/build.cpp # source/build/src/polymer.cpp
2019-06-29 17:48:05 +00:00
// NUKE-TODO: Should be updated for new map format only
yax_update(0);
TROR related tweaks # Conflicts: # source/blood/src/mirrors.cpp
2019-06-26 14:02:01 +00:00
#endif
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
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g_loadedMapVersion = 7;
return 0;
}
Semi-working map save
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int dbSaveMap(const char *pPath, int nX, int nY, int nZ, short nAngle, short nSector)
{
char sMapExt[_MAX_PATH];
char sBakExt[_MAX_PATH];
int16_t tpskyoff[256];
int nSpriteNum;
psky_t *pSky = tileSetupSky(0);
gSkyCount = 1<<pSky->lognumtiles;
gMapRev++;
nSpriteNum = 0;
strcpy(sMapExt, pPath);
ChangeExtension(sMapExt, ".MAP");
int nSize = sizeof(MAPSIGNATURE)+sizeof(MAPHEADER);
if (byte_1A76C8)
{
nSize += sizeof(MAPHEADER2);
}
Free cstat bit 14 # Conflicts: # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp # source/duke3d/src/astub.cpp
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for (int i = 0; i < gSkyCount; i++)
Semi-working map save
2019-06-29 15:37:04 +00:00
tpskyoff[i] = pSky->tileofs[i];
nSize += gSkyCount*sizeof(tpskyoff[0]);
nSize += sizeof(sectortype)*numsectors;
for (int i = 0; i < numsectors; i++)
{
if (sector[i].extra > 0)
{
nSize += nXSectorSize;
}
}
nSize += sizeof(walltype)*numwalls;
for (int i = 0; i < numwalls; i++)
{
if (wall[i].extra > 0)
{
nSize += nXWallSize;
}
}
for (int i = 0; i < kMaxSprites; i++)
{
if (sprite[i].statnum < kMaxStatus)
{
nSpriteNum++;
if (sprite[i].extra > 0)
{
nSize += nXSpriteSize;
}
}
}
nSize += sizeof(spritetype)*nSpriteNum;
nSize += 4;
char *pData = (char*)Xmalloc(nSize);
IOBuffer IOBuffer1 = IOBuffer(nSize, pData);
MAPSIGNATURE header;
memcpy(&header, "BLM\x1a", 4);
if (byte_1A76C8)
{
header.version = 0x700;
byte_1A76C7 = 1;
}
else
{
header.version = 0x603;
byte_1A76C7 = 0;
}
IOBuffer1.Write(&header, sizeof(header));
MAPHEADER mapheader;
mapheader.at0 = B_LITTLE32(nX);
mapheader.at4 = B_LITTLE32(nY);
mapheader.at8 = B_LITTLE32(nZ);
mapheader.atc = B_LITTLE16(nAngle);
mapheader.ate = B_LITTLE16(nSector);
mapheader.at10 = B_LITTLE16(pSky->lognumtiles);
mapheader.at12 = B_LITTLE32(gVisibility);
if (byte_1A76C6)
{
gSongId = 0x7474614d;
}
else
{
gSongId = 0;
}
mapheader.at16 = B_LITTLE32(gSongId);
mapheader.at1a = parallaxtype;
mapheader.at1b = gMapRev;
mapheader.at1f = B_LITTLE16(numsectors);
mapheader.at21 = B_LITTLE16(numwalls);
mapheader.at23 = B_LITTLE16(nSpriteNum);
if (byte_1A76C7)
{
dbCrypt((char*)&mapheader, sizeof(MAPHEADER), 'ttaM');
}
IOBuffer1.Write(&mapheader, sizeof(MAPHEADER));
if (byte_1A76C8)
{
Bstrcpy(byte_19AE44.at0, AppProperName);
byte_19AE44.at48 = nXSectorSize;
byte_19AE44.at44 = nXWallSize;
byte_19AE44.at40 = nXSpriteSize;
dbCrypt((char*)&byte_19AE44, sizeof(MAPHEADER2), numwalls);
IOBuffer1.Write(&byte_19AE44, sizeof(MAPHEADER2));
dbCrypt((char*)&byte_19AE44, sizeof(MAPHEADER2), numwalls);
}
if (byte_1A76C8)
{
dbCrypt((char*)tpskyoff, gSkyCount*sizeof(tpskyoff[0]), gSkyCount*sizeof(tpskyoff[0]));
}
IOBuffer1.Write(tpskyoff, gSkyCount*sizeof(tpskyoff[0]));
if (byte_1A76C8)
{
dbCrypt((char*)tpskyoff, gSkyCount*sizeof(tpskyoff[0]), gSkyCount*sizeof(tpskyoff[0]));
}
for (int i = 0; i < numsectors; i++)
{
if (byte_1A76C8)
{
dbCrypt((char*)&sector[i], sizeof(sectortype), gMapRev*sizeof(sectortype));
}
IOBuffer1.Write(&sector[i], sizeof(sectortype));
if (byte_1A76C8)
{
dbCrypt((char*)&sector[i], sizeof(sectortype), gMapRev*sizeof(sectortype));
}
if (sector[i].extra > 0)
{
char pBuffer[nXSectorSize];
BitWriter bitWriter(pBuffer, nXSectorSize);
XSECTOR* pXSector = &xsector[sector[i].extra];
bitWriter.write(pXSector->reference, 14);
bitWriter.write(pXSector->state, 1);
bitWriter.write(pXSector->busy, 17);
bitWriter.write(pXSector->data, 16);
bitWriter.write(pXSector->txID, 10);
bitWriter.write(pXSector->at7_2, 3);
bitWriter.write(pXSector->at7_5, 3);
bitWriter.write(pXSector->rxID, 10);
bitWriter.write(pXSector->command, 8);
bitWriter.write(pXSector->triggerOn, 1);
bitWriter.write(pXSector->triggerOff, 1);
bitWriter.write(pXSector->busyTimeA, 12);
bitWriter.write(pXSector->waitTimeA, 12);
bitWriter.write(pXSector->atd_4, 1);
bitWriter.write(pXSector->interruptable, 1);
bitWriter.write(pXSector->amplitude, 8);
bitWriter.write(pXSector->freq, 8);
bitWriter.write(pXSector->atf_6, 1);
bitWriter.write(pXSector->atf_7, 1);
bitWriter.write(pXSector->phase, 8);
bitWriter.write(pXSector->wave, 4);
bitWriter.write(pXSector->shadeAlways, 1);
bitWriter.write(pXSector->shadeFloor, 1);
bitWriter.write(pXSector->shadeCeiling, 1);
bitWriter.write(pXSector->shadeWalls, 1);
bitWriter.write(pXSector->shade, 8);
bitWriter.write(pXSector->panAlways, 1);
bitWriter.write(pXSector->panFloor, 1);
bitWriter.write(pXSector->panCeiling, 1);
bitWriter.write(pXSector->Drag, 1);
bitWriter.write(pXSector->Underwater, 1);
bitWriter.write(pXSector->Depth, 3);
bitWriter.write(pXSector->panVel, 8);
bitWriter.write(pXSector->panAngle, 11);
bitWriter.write(pXSector->at16_3, 1);
bitWriter.write(pXSector->decoupled, 1);
bitWriter.write(pXSector->triggerOnce, 1);
bitWriter.write(pXSector->at16_6, 1);
bitWriter.write(pXSector->Key, 3);
bitWriter.write(pXSector->Push, 1);
bitWriter.write(pXSector->Vector, 1);
bitWriter.write(pXSector->Reserved, 1);
bitWriter.write(pXSector->Enter, 1);
bitWriter.write(pXSector->Exit, 1);
bitWriter.write(pXSector->Wallpush, 1);
bitWriter.write(pXSector->color, 1);
bitWriter.write(pXSector->at18_1, 1);
bitWriter.write(pXSector->busyTimeB, 12);
bitWriter.write(pXSector->waitTimeB, 12);
bitWriter.write(pXSector->at1b_2, 1);
bitWriter.write(pXSector->at1b_3, 1);
bitWriter.write(pXSector->ceilpal, 4);
bitWriter.write(pXSector->at1c_0, 32);
bitWriter.write(pXSector->at20_0, 32);
bitWriter.write(pXSector->at24_0, 32);
bitWriter.write(pXSector->at28_0, 32);
bitWriter.write(pXSector->at2c_0, 16);
bitWriter.write(pXSector->at2e_0, 16);
bitWriter.write(pXSector->Crush, 1);
bitWriter.write(pXSector->at30_1, 8);
bitWriter.write(pXSector->at31_1, 8);
bitWriter.write(pXSector->at32_1, 8);
bitWriter.write(pXSector->damageType, 3);
bitWriter.write(pXSector->floorpal, 4);
bitWriter.write(pXSector->at34_0, 8);
bitWriter.write(pXSector->locked, 1);
bitWriter.write(pXSector->windVel, 10);
bitWriter.write(pXSector->windAng, 11);
bitWriter.write(pXSector->windAlways, 1);
bitWriter.write(pXSector->at37_7, 1);
bitWriter.write(pXSector->bobTheta, 11);
bitWriter.write(pXSector->bobZRange, 5);
bitWriter.write(pXSector->bobSpeed, 12);
bitWriter.write(pXSector->bobAlways, 1);
bitWriter.write(pXSector->bobFloor, 1);
bitWriter.write(pXSector->bobCeiling, 1);
bitWriter.write(pXSector->bobRotate, 1);
IOBuffer1.Write(pBuffer, nXSectorSize);
}
}
for (int i = 0; i < numwalls; i++)
{
if (byte_1A76C8)
{
dbCrypt((char*)&wall[i], sizeof(walltype), gMapRev*sizeof(sectortype) | 0x7474614d);
}
IOBuffer1.Write(&wall[i], sizeof(walltype));
if (byte_1A76C8)
{
dbCrypt((char*)&wall[i], sizeof(walltype), gMapRev*sizeof(sectortype) | 0x7474614d);
}
if (wall[i].extra > 0)
{
char pBuffer[nXWallSize];
BitWriter bitWriter(pBuffer, nXWallSize);
XWALL* pXWall = &xwall[wall[i].extra];
bitWriter.write(pXWall->reference, 14);
bitWriter.write(pXWall->state, 1);
bitWriter.write(pXWall->busy, 17);
bitWriter.write(pXWall->data, 16);
bitWriter.write(pXWall->txID, 10);
bitWriter.write(pXWall->at7_2, 6);
bitWriter.write(pXWall->rxID, 10);
bitWriter.write(pXWall->command, 8);
bitWriter.write(pXWall->triggerOn, 1);
bitWriter.write(pXWall->triggerOff, 1);
bitWriter.write(pXWall->busyTime, 12);
bitWriter.write(pXWall->waitTime, 12);
bitWriter.write(pXWall->restState, 1);
bitWriter.write(pXWall->interruptable, 1);
bitWriter.write(pXWall->panAlways, 1);
bitWriter.write(pXWall->panXVel, 8);
bitWriter.write(pXWall->panYVel, 8);
bitWriter.write(pXWall->decoupled, 1);
bitWriter.write(pXWall->triggerOnce, 1);
bitWriter.write(pXWall->isTriggered, 1);
bitWriter.write(pXWall->key, 3);
bitWriter.write(pXWall->triggerPush, 1);
bitWriter.write(pXWall->triggerVector, 1);
bitWriter.write(pXWall->triggerReserved, 1);
bitWriter.write(pXWall->at11_0, 2);
bitWriter.write(pXWall->xpanFrac, 8);
bitWriter.write(pXWall->ypanFrac, 8);
bitWriter.write(pXWall->locked, 1);
bitWriter.write(pXWall->dudeLockout, 1);
bitWriter.write(pXWall->at13_4, 4);
bitWriter.write(pXWall->at14_0, 32);
IOBuffer1.Write(pBuffer, nXWallSize);
}
}
for (int i = 0; i < kMaxSprites; i++)
{
if (sprite[i].statnum < kMaxStatus)
{
if (byte_1A76C8)
{
dbCrypt((char*)&sprite[i], sizeof(spritetype), gMapRev*sizeof(spritetype) | 'ttaM');
}
IOBuffer1.Write(&sprite[i], sizeof(spritetype));
if (byte_1A76C8)
{
dbCrypt((char*)&sprite[i], sizeof(spritetype), gMapRev*sizeof(spritetype) | 'ttaM');
}
if (sprite[i].extra > 0)
{
char pBuffer[nXSpriteSize];
BitWriter bitWriter(pBuffer, nXSpriteSize);
XSPRITE* pXSprite = &xsprite[sprite[i].extra];
bitWriter.write(pXSprite->reference, 14);
bitWriter.write(pXSprite->state, 1);
bitWriter.write(pXSprite->busy, 17);
bitWriter.write(pXSprite->txID, 10);
bitWriter.write(pXSprite->rxID, 10);
bitWriter.write(pXSprite->command, 8);
bitWriter.write(pXSprite->triggerOn, 1);
bitWriter.write(pXSprite->triggerOff, 1);
bitWriter.write(pXSprite->wave, 2);
bitWriter.write(pXSprite->busyTime, 12);
bitWriter.write(pXSprite->waitTime, 12);
bitWriter.write(pXSprite->restState, 1);
bitWriter.write(pXSprite->Interrutable, 1);
bitWriter.write(pXSprite->atb_2, 2);
bitWriter.write(pXSprite->respawnPending, 2);
bitWriter.write(pXSprite->atb_6, 1);
bitWriter.write(pXSprite->lT, 1);
bitWriter.write(pXSprite->dropMsg, 8);
bitWriter.write(pXSprite->Decoupled, 1);
bitWriter.write(pXSprite->triggerOnce, 1);
bitWriter.write(pXSprite->isTriggered, 1);
bitWriter.write(pXSprite->key, 3);
bitWriter.write(pXSprite->Push, 1);
bitWriter.write(pXSprite->Vector, 1);
bitWriter.write(pXSprite->Impact, 1);
bitWriter.write(pXSprite->Pickup, 1);
bitWriter.write(pXSprite->Touch, 1);
bitWriter.write(pXSprite->Sight, 1);
bitWriter.write(pXSprite->Proximity, 1);
bitWriter.write(pXSprite->ate_5, 2);
bitWriter.write(pXSprite->lSkill, 5);
bitWriter.write(pXSprite->lS, 1);
bitWriter.write(pXSprite->lB, 1);
bitWriter.write(pXSprite->lC, 1);
bitWriter.write(pXSprite->DudeLockout, 1);
bitWriter.write(pXSprite->data1, 16);
bitWriter.write(pXSprite->data2, 16);
bitWriter.write(pXSprite->data3, 16);
bitWriter.write(pXSprite->goalAng, 11);
bitWriter.write(pXSprite->dodgeDir, 2);
bitWriter.write(pXSprite->locked, 1);
bitWriter.write(pXSprite->medium, 2);
bitWriter.write(pXSprite->respawn, 2);
bitWriter.write(pXSprite->data4, 16);
bitWriter.write(pXSprite->at1a_2, 6);
bitWriter.write(pXSprite->lockMsg, 8);
bitWriter.write(pXSprite->health, 12);
bitWriter.write(pXSprite->dudeDeaf, 1);
bitWriter.write(pXSprite->dudeAmbush, 1);
bitWriter.write(pXSprite->dudeGuard, 1);
bitWriter.write(pXSprite->dudeFlag4, 1);
bitWriter.write(pXSprite->target, 16);
bitWriter.write(pXSprite->targetX, 32);
bitWriter.write(pXSprite->targetY, 32);
bitWriter.write(pXSprite->targetZ, 32);
bitWriter.write(pXSprite->burnTime, 16);
bitWriter.write(pXSprite->burnSource, 16);
bitWriter.write(pXSprite->height, 16);
bitWriter.write(pXSprite->stateTimer, 16);
IOBuffer1.Write(pBuffer, nXSpriteSize);
}
}
}
unsigned long nCRC = Bcrc32(pData, nSize-4, 0);
IOBuffer1.Write(&nCRC, 4);
int nHandle = Bopen(sMapExt, BO_BINARY|BO_TRUNC|BO_CREAT|BO_WRONLY, BS_IREAD|BS_IWRITE);
if (nHandle == -1)
{
initprintf("Couldn't open \"%s\" for writing: %s\n", sMapExt, strerror(errno));
Bfree(pData);
return -1;
}
if (Bwrite(nHandle, pData, nSize) != nSize)
{
initprintf("Couldn't write to \"%s\": %s\n", sMapExt, strerror(errno));
Bclose(nHandle);
Bfree(pData);
return -1;
}
Bclose(nHandle);
Bfree(pData);
return 0;
#if 0
char *pExt = strchr(sMapExt, '.');
if (pExt)
{
*pExt = 0;
}
gSysRes.AddExternalResource(sMapExt, "MAP", nSize);
DICTNODE *hMap = gSysRes.Lookup(sMapExt, "MAP");
dassert(hMap != NULL);
#endif
}
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
int32_t qloadboard(const char* filename, char flags, vec3_t* dapos, int16_t* daang, int16_t* dacursectnum)
{
Semi-working map save
2019-06-29 15:37:04 +00:00
// NUKE-TODO: implement flags, see mapedit.cpp
Add ability to load blood maps # Conflicts: # platform/Windows/nmapedit.vcxproj # platform/Windows/nmapedit.vcxproj.filters # source/blood/src/mapedit.cpp # source/build/src/build.cpp # source/build/src/engine.cpp
2019-06-28 16:03:47 +00:00
return dbLoadMap(filename, &dapos->x, &dapos->y, &dapos->z, (short*)daang, (short*)dacursectnum, NULL);
- added NBlood source.
2019-09-19 22:42:45 +00:00
}
Semi-working map save
2019-06-29 15:37:04 +00:00
int32_t qsaveboard(const char* filename, const vec3_t* dapos, int16_t daang, int16_t dacursectnum)
{
// NUKE-TODO: see mapedit.cpp
byte_1A76C6 = byte_1A76C8 = byte_1A76C7 = 1;
return dbSaveMap(filename, dapos->x, dapos->y, dapos->z, daang, dacursectnum);
}