//------------------------------------------------------------------------- /* 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. */ //------------------------------------------------------------------------- #pragma once BEGIN_BLD_NS enum { kMaxXSprites = 16384, kMaxXWalls = 512, kMaxXSectors = 512 }; enum { kAttrMove = 0x0001, // is affected by movement physics kAttrGravity = 0x0002, // is affected by gravity kAttrFalling = 0x0004, // in z motion kAttrAiming = 0x0008, kAttrRespawn = 0x0010, kAttrFree = 0x0020, kAttrSmoke = 0x0100, // receives tsprite smoke/steam }; // by NoOne: functions to quckly check range of specifical arrays inline bool xspriRangeIsFine(int nXindex) { return (nXindex >= 0 && nXindex < kMaxXSprites); } inline bool xsectRangeIsFine(int nXindex) { return (nXindex >= 0 && nXindex < kMaxXSectors); } inline bool xwallRangeIsFine(int nXindex) { return (nXindex >= 0 && nXindex < kMaxXWalls); } #pragma pack(push, 1) struct AISTATE; struct XSPRITE { AISTATE* aiState; // ai union { uint32_t flags; struct { unsigned int state : 1; // State 0 unsigned int triggerOn : 1; // going ON unsigned int triggerOff : 1; // going OFF unsigned int restState : 1; // restState unsigned int Interrutable : 1; // Interruptable unsigned int Decoupled : 1; // Decoupled unsigned int triggerOnce : 1; // 1-shot unsigned int isTriggered : 1; // works in case if triggerOnce selected unsigned int Push : 1; // Push unsigned int Vector : 1; // Vector unsigned int Impact : 1; // Impact unsigned int Pickup : 1; // Pickup unsigned int Touch : 1; // Touch unsigned int Sight : 1; // Sight unsigned int Proximity : 1; // Proximity unsigned int lS : 1; // Single unsigned int lB : 1; // Bloodbath unsigned int lT : 1; // Launch Team unsigned int lC : 1; // Coop unsigned int DudeLockout : 1; // DudeLockout unsigned int locked : 1; // Locked unsigned int dudeDeaf : 1; // dudeDeaf unsigned int dudeAmbush : 1; // dudeAmbush unsigned int dudeGuard : 1; // dudeGuard unsigned int dudeFlag4 : 1; // unused unsigned int wave : 2; // Wave unsigned int medium : 2; // medium unsigned int respawn : 2; // Respawn option unsigned int unused2 : 1; // (new) patrol state }; }; int32_t targetX; // target x int32_t targetY; // target y int32_t targetZ; // target z int32_t sysData1; // used to keep here various system data, so user can't change it in map editor int32_t sysData2; // int32_t scale; // used for scaling SEQ size on sprites uint32_t physAttr; // currently used by additional physics sprites to keep it's attributes. uint32_t health; uint32_t busy; int16_t reference; int16_t data1; // Data 1 int16_t data2; // Data 2 int16_t data3; // Data 3 int16_t target; // target sprite int16_t burnSource; uint16_t txID; // TX ID uint16_t rxID; // RX ID uint16_t command; // Cmd uint16_t busyTime; // busyTime uint16_t waitTime; // waitTime uint16_t data4; // Data 4 uint16_t goalAng; // Dude goal ang uint16_t burnTime; uint16_t height; uint16_t stateTimer; // ai timer uint8_t respawnPending; // respawnPending uint8_t dropMsg; // Drop Item uint8_t key; // Key uint8_t lSkill; // Launch 12345 uint8_t lockMsg; // Lock msg int8_t dodgeDir; // Dude dodge direction uint8_t unused1; // modern flags }; struct XSECTOR { union { uint64_t flags; struct { unsigned int state : 1; // State unsigned int triggerOn : 1; // Send at ON unsigned int triggerOff : 1; // Send at OFF unsigned int restState : 1; unsigned int interruptable : 1; // Interruptable unsigned int reTriggerA : 1; // OFF->ON wait unsigned int reTriggerB : 1; // ON->OFF wait unsigned int shadeAlways : 1; // Lighting shadeAlways unsigned int shadeFloor : 1; // Lighting floor unsigned int shadeCeiling : 1; // Lighting ceiling unsigned int shadeWalls : 1; // Lighting walls unsigned int panAlways : 1; // Pan always unsigned int panFloor : 1; // Pan floor unsigned int panCeiling : 1; // Pan ceiling unsigned int Drag : 1; // Pan drag unsigned int Underwater : 1; // Underwater unsigned int decoupled : 1; // Decoupled unsigned int triggerOnce : 1; // 1-shot unsigned int isTriggered : 1; unsigned int Push : 1; // Push unsigned int Vector : 1; // Vector unsigned int Reserved : 1; // Reserved unsigned int Enter : 1; // Enter unsigned int Exit : 1; // Exit unsigned int Wallpush : 1; // WallPush unsigned int color : 1; // Color Lights unsigned int stopOn : 1; unsigned int stopOff : 1; unsigned int Crush : 1; // Crush unsigned int locked : 1; // Locked unsigned int windAlways : 1; // Wind always unsigned int dudeLockout : 1; unsigned int bobAlways : 1; // Motion always unsigned int bobFloor : 1; // Motion bob floor unsigned int bobCeiling : 1; // Motion bob ceiling unsigned int bobRotate : 1; // Motion rotate unsigned int unused1 : 1; // (new) pause motion }; }; uint32_t busy; int32_t offCeilZ; int32_t onCeilZ; int32_t offFloorZ; int32_t onFloorZ; uint32_t windVel; // Wind vel (changed from 10 bit to use higher velocity values) uint16_t reference; uint16_t data; // Data uint16_t txID; // TX ID uint16_t rxID; // RX ID uint16_t busyTimeA; // OFF->ON busyTime uint16_t waitTimeA; // OFF->ON waitTime uint16_t panAngle; // Motion angle uint16_t busyTimeB; // ON->OFF busyTime uint16_t waitTimeB; // ON->OFF waitTime uint16_t marker0; uint16_t marker1; uint16_t windAng; // Wind ang uint16_t bobTheta; // Motion Theta int16_t bobSpeed; // Motion speed uint8_t busyWaveA; // OFF->ON wave uint8_t busyWaveB; // ON->OFF wave uint8_t command; // Cmd int8_t amplitude; // Lighting amplitude uint8_t freq; // Lighting freq uint8_t phase; // Lighting phase uint8_t wave; // Lighting wave int8_t shade; // Lighting value uint8_t panVel; // Motion speed uint8_t Depth; // Depth uint8_t Key; // Key uint8_t ceilpal; // Ceil pal2 uint8_t damageType; // DamageType uint8_t floorpal; // Floor pal2 uint8_t bobZRange; // Motion Z range }; struct XWALL { union { uint32_t flags; struct { unsigned int state : 1; // State unsigned int triggerOn : 1; // going ON unsigned int triggerOff : 1; // going OFF unsigned int restState : 1; // restState unsigned int interruptable : 1; // Interruptable unsigned int panAlways : 1; // panAlways unsigned int decoupled : 1; // Decoupled unsigned int triggerOnce : 1; // 1-shot unsigned int isTriggered : 1; unsigned int triggerPush : 1; // Push unsigned int triggerVector : 1; // Vector unsigned int triggerTouch : 1; // by NoOne: renamed from Reserved to Touch as it works with Touch now. unsigned int locked : 1; // Locked unsigned int dudeLockout : 1; // DudeLockout }; }; uint32_t busy; int16_t reference; int16_t data; // Data uint16_t txID; // TX ID uint16_t rxID; // RX ID uint16_t busyTime; // busyTime uint16_t waitTime; // waitTime uint8_t command; // Cmd int8_t panXVel; // panX int8_t panYVel; // panY uint8_t key; // Key }; struct MAPSIGNATURE { char signature[4]; short version; }; struct MAPHEADER { int x; // x int y; // y int z; // z short ang; // ang short sect; // sect short pskybits; // pskybits int visibility; // visibility int mattid; // song id, Matt char parallax; // parallaxtype int revision; // map revision short numsectors; // numsectors short numwalls; // numwalls short numsprites; // numsprites }; struct MAPHEADER2 { char name[64]; int numxsprites; // xsprite size int numxwalls; // xwall size int numxsectors; // xsector size char pad[52]; }; struct SPRITEHIT { int hit, ceilhit, florhit; }; #pragma pack(pop) extern unsigned short gStatCount[kMaxStatus + 1];; extern bool drawtile2048, encrypted; extern MAPHEADER2 byte_19AE44; extern XSPRITE xsprite[kMaxXSprites]; extern XSECTOR xsector[kMaxXSectors]; extern XWALL xwall[kMaxXWalls]; extern FixedBitArray activeXSprites; extern SPRITEHIT gSpriteHit[kMaxXSprites]; extern char qsector_filler[kMaxSectors]; extern int xvel[kMaxSprites], yvel[kMaxSprites], zvel[kMaxSprites]; extern int gVisibility; extern int gMapRev, gMattId, gSkyCount; extern const char *gItemText[]; extern const char *gAmmoText[]; extern const char *gWeaponText[]; extern unsigned short nextXSprite[kMaxXSprites]; extern int XWallsUsed, XSectorsUsed; static inline int GetWallType(int nWall) { return wall[nWall].type; } template void GetSpriteExtents(T const * const pSprite, int *top, int *bottom) { *top = *bottom = pSprite->z; if ((pSprite->cstat & 0x30) != 0x20) { int height = tileHeight(pSprite->picnum); int center = height / 2 + tileTopOffset(pSprite->picnum); *top -= (pSprite->yrepeat << 2)*center; *bottom += (pSprite->yrepeat << 2)*(height - center); } } #ifdef POLYMER #pragma pack(push, 1) struct PolymerLight_t { int16_t lightId, lightmaxrange; _prlight* lightptr; uint8_t lightcount; }; #pragma pack(pop) extern PolymerLight_t gPolymerLight[kMaxSprites]; void DeleteLight(int32_t s); #endif void InsertSpriteSect(int nSprite, int nSector); void RemoveSpriteSect(int nSprite); void InsertSpriteStat(int nSprite, int nStat); void RemoveSpriteStat(int nSprite); void qinitspritelists(void); int InsertSprite(int nSector, int nStat); int qinsertsprite(short nSector, short nStat); int DeleteSprite(int nSprite); int qdeletesprite(short nSprite); int ChangeSpriteSect(int nSprite, int nSector); int qchangespritesect(short nSprite, short nSector); int ChangeSpriteStat(int nSprite, int nStatus); int qchangespritestat(short nSprite, short nStatus); void InitFreeList(unsigned short *pList, int nCount); void InitFreeList(unsigned short* pList, int nCount, FixedBitArray& activeXSprites); void InsertFree(unsigned short *pList, int nIndex); unsigned short dbInsertXSprite(int nSprite); void dbDeleteXSprite(int nXSprite); unsigned short dbInsertXWall(int nWall); unsigned short dbInsertXSector(int nSector); void dbInit(void); void PropagateMarkerReferences(void); unsigned int dbReadMapCRC(const char *pPath); void dbLoadMap(const char *pPath, int *pX, int *pY, int *pZ, short *pAngle, short *pSector, unsigned int *pCRC); END_BLD_NS