mirror of
https://github.com/DrBeef/Raze.git
synced 2024-12-11 13:21:39 +00:00
312 lines
7.9 KiB
C++
312 lines
7.9 KiB
C++
#pragma once
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#include "gamecontrol.h"
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#include "binaryangle.h"
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#include "build.h"
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// breadth first search, this gets used multiple times throughout the engine, mainly for iterating over sectors.
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// Only works on indices, this has no knowledge of the actual objects being looked at.
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// All objects of this type operate on the same shared store. Interleaved use is not allowed, nested use is fine.
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class BFSSearch
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{
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static inline TArray<unsigned> store;
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unsigned bitpos;
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unsigned startpos;
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unsigned curpos;
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public:
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enum { EOL = ~0u };
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BFSSearch(unsigned datasize, unsigned startnode)
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{
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bitpos = store.Size();
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unsigned bitsize = (datasize + 31) >> 5;
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store.Reserve(bitsize);
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memset(&store[bitpos], 0, bitsize*4);
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startpos = store.Size();
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curpos = startpos;
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Set(startnode);
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store.Push(startnode);
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}
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// This allows this object to just work as a bit array
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// which is useful for using its shared storage.
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BFSSearch(unsigned datasize)
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{
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bitpos = store.Size();
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unsigned bitsize = (datasize + 31) >> 5;
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store.Reserve(bitsize);
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memset(&store[bitpos], 0, bitsize * 4);
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}
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~BFSSearch()
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{
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store.Clamp(bitpos);
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}
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bool Check(unsigned index) const
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{
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return !!(store[bitpos + (index >> 5)] & (1 << (index & 31)));
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}
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void Set(unsigned index)
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{
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store[bitpos + (index >> 5)] |= (1 << (index & 31));
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}
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private:
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public:
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unsigned GetNext()
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{
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curpos++;
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if (curpos <= store.Size())
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return store[curpos-1];
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else
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return ~0;
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}
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void Rewind()
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{
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curpos = startpos;
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}
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void Add(unsigned elem)
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{
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if (!Check(elem))
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{
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Set(elem);
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store.Push(elem);
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}
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}
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};
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extern int cameradist, cameraclock;
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void loaddefinitionsfile(const char* fn, bool cumulative = false, bool maingrp = false);
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bool calcChaseCamPos(int* px, int* py, int* pz, spritetype* pspr, int *psectnum, binangle ang, fixedhoriz horiz, double const smoothratio);
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inline bool calcChaseCamPos(int* px, int* py, int* pz, spritetype* pspr, sectortype** psectnum, binangle ang, fixedhoriz horiz, double const smoothratio)
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{
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int sectnum;
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bool res = calcChaseCamPos(px, py, pz, pspr, §num, ang, horiz, smoothratio);
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*psectnum = §or[sectnum];
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return res;
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}
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void PlanesAtPoint(const sectortype* sec, int dax, int day, float* ceilz, float* florz);
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inline void PlanesAtPoint(const sectortype* sec, float dax, float day, float* ceilz, float* florz) // this is just for warning evasion.
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{
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PlanesAtPoint(sec, int(dax), int(day), ceilz, florz);
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}
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void setWallSectors();
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void GetWallSpritePosition(const spritetype* spr, vec2_t pos, vec2_t* out, bool render = false);
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void GetFlatSpritePosition(const spritetype* spr, vec2_t pos, vec2_t* out, bool render = false);
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void checkRotatedWalls();
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// y is negated so that the orientation is the same as in GZDoom, in order to use its utilities.
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// The render code should NOT use Build coordinates for anything!
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inline double WallStartX(int wallnum)
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{
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return wall[wallnum].x * (1 / 16.);
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}
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inline double WallStartY(int wallnum)
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{
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return wall[wallnum].y * (1 / -16.);
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}
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inline double WallEndX(int wallnum)
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{
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return wall[wall[wallnum].point2].x * (1 / 16.);
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}
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inline double WallEndY(int wallnum)
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{
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return wall[wall[wallnum].point2].y * (1 / -16.);
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}
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inline double WallStartX(const walltype* wallnum)
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{
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return wallnum->x * (1 / 16.);
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}
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inline double WallStartY(const walltype* wallnum)
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{
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return wallnum->y * (1 / -16.);
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}
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inline DVector2 WallStart(const walltype* wallnum)
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{
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return { WallStartX(wallnum), WallStartY(wallnum) };
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}
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inline double WallEndX(const walltype* wallnum)
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{
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return wall[wallnum->point2].x * (1 / 16.);
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}
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inline double WallEndY(const walltype* wallnum)
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{
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return wall[wallnum->point2].y * (1 / -16.);
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}
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inline DVector2 WallEnd(const walltype* wallnum)
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{
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return { WallEndX(wallnum), WallEndY(wallnum) };
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}
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inline DVector2 WallDelta(const walltype* wallnum)
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{
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return WallEnd(wallnum) - WallStart(wallnum);
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}
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inline double SpriteX(spritetype* spr)
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{
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return spr->x * (1 / 16.);
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}
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inline double SpriteY(spritetype* spr)
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{
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return spr->y * (1 / -16.);
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}
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inline DVector2 SpritePos(spritetype* spr)
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{
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return { SpriteX(spr), SpriteY(spr) };
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}
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inline double PointOnLineSide(double x, double y, double linex, double liney, double deltax, double deltay)
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{
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return (x - linex) * deltay - (y - liney) * deltax;
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}
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inline double PointOnLineSide(const DVector2 &pos, const walltype *line)
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{
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return (pos.X - WallStartX(line)) * WallDelta(line).Y - (pos.Y - WallStartY(line)) * WallDelta(line).X;
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}
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template<class T>
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inline double PointOnLineSide(const TVector2<T>& pos, const TVector2<T>& linestart, const TVector2<T>& lineend)
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{
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return (pos.X - linestart.X) * (lineend.Y - linestart.Y) - (pos.Y - linestart.Y) * (lineend.X - linestart.X);
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}
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inline int sectorofwall(int wallNum)
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{
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if ((unsigned)wallNum < (unsigned)numwalls) return wall[wallNum].sector;
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return -1;
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}
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extern int numshades;
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// Return type is int because this gets passed to variadic functions where structs may produce undefined behavior.
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inline int shadeToLight(int shade)
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{
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shade = clamp(shade, 0, numshades - 1);
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int light = Scale(numshades - 1 - shade, 255, numshades - 1);
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return PalEntry(255, light, light, light);
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}
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inline void copyfloorpal(spritetype* spr, const sectortype* sect)
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{
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if (!lookups.noFloorPal(sect->floorpal)) spr->pal = sect->floorpal;
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}
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inline void spriteSetSlope(spritetype* spr, int heinum)
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{
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if (spr->cstat & CSTAT_SPRITE_ALIGNMENT_FLOOR)
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{
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spr->xoffset = heinum & 255;
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spr->yoffset = (heinum >> 8) & 255;
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spr->cstat = (spr->cstat & ~CSTAT_SPRITE_ALIGNMENT_MASK) | (heinum != 0 ? CSTAT_SPRITE_ALIGNMENT_SLOPE : CSTAT_SPRITE_ALIGNMENT_FLOOR);
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}
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}
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inline int spriteGetSlope(spritetype* spr)
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{
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return ((spr->cstat & CSTAT_SPRITE_ALIGNMENT_MASK) != CSTAT_SPRITE_ALIGNMENT_SLOPE) ? 0 : uint8_t(spr->xoffset) + (uint8_t(spr->yoffset) << 8);
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}
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inline int I_GetBuildTime()
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{
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return I_GetTime(120);
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}
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inline int32_t getangle(walltype* wal)
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{
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return getangle(
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wall[wal->point2].x - wal->x,
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wall[wal->point2].y - wal->y);
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}
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inline TArrayView<sectortype> sectors()
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{
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return TArrayView<sectortype>(§or[0], numsectors);
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}
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inline TArrayView<walltype> walls()
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{
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return TArrayView<walltype>(&wall[0], numwalls);
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}
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inline TArrayView<walltype> wallsofsector(sectortype* sec)
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{
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return TArrayView<walltype>(sec->firstWall(), sec->wallnum);
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}
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inline TArrayView<walltype> wallsofsector(int sec)
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{
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return wallsofsector(§or[sec]);
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}
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// these are mainly meant as refactoring aids to mark function calls to work on.
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inline int wallnum(const walltype* wal)
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{
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return int(wal - wall);
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}
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inline int sectnum(const sectortype* sect)
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{
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return int(sect - sector);
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}
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inline double SquareDist(double lx1, double ly1, double lx2, double ly2)
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{
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double dx = lx2 - lx1;
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double dy = ly2 - ly1;
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return dx * dx + dy * dy;
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}
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inline double SquareDistToWall(double px, double py, const walltype* wal)
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{
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double lx1 = wal->x;
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double ly1 = wal->y;
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double lx2 = wal->point2Wall()->x;
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double ly2 = wal->point2Wall()->y;
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double wall_length = SquareDist(lx1, ly1, lx2, ly2);
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if (wall_length == 0) return SquareDist(px, py, lx1, ly1);
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double t = ((px - lx1) * (lx2 - lx1) + (py - ly1) * (ly2 - ly1)) / wall_length;
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t = clamp(t, 0., 1.);
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return SquareDist(px, py, lx1 + t * (lx2 - lx1), ly1 + t * (ly2 - ly1));
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}
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inline int inside(int x, int y, sectortype* sect)
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{
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return inside(x, y, sectnum(sect));
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}
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inline void dragpoint(walltype* pointhighlight, int32_t dax, int32_t day)
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{
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dragpoint(wallnum(pointhighlight), dax, day);
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}
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inline int findwallbetweensectors(sectortype* sect1, sectortype* sect2)
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{
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return findwallbetweensectors(sectnum(sect1), sectnum(sect2));
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}
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