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bd7476fb8d
Both files can now be included independently without causing problems. This also required moving some inline functions into separate files and splitting off the GC definitions from dobject.h to ensure that r_defs does not need to pull in any part of the object hierarchy.
424 lines
No EOL
9.7 KiB
C++
424 lines
No EOL
9.7 KiB
C++
#ifndef __P_MAPUTL_H
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#define __P_MAPUTL_H
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#include <float.h>
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#include "r_defs.h"
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#include "doomstat.h"
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#include "m_bbox.h"
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extern int validcount;
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struct FBlockNode;
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struct divline_t
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{
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double x;
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double y;
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double dx;
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double dy;
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};
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struct intercept_t
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{
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double frac;
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bool isaline;
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bool done;
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union {
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AActor *thing;
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line_t *line;
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} d;
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};
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//==========================================================================
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//
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// P_PointOnLineSide
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//
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// Returns 0 (front/on) or 1 (back)
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// [RH] inlined, stripped down, and made more precise
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//
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//==========================================================================
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inline int P_PointOnLineSidePrecise(double x, double y, const line_t *line)
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{
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return (y - line->v1->fY()) * line->Delta().X + (line->v1->fX() - x) * line->Delta().Y > EQUAL_EPSILON;
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}
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inline int P_PointOnLineSidePrecise(const DVector2 &pt, const line_t *line)
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{
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return (pt.Y - line->v1->fY()) * line->Delta().X + (line->v1->fX() - pt.X) * line->Delta().Y > EQUAL_EPSILON;
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}
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inline int P_PointOnLineSide (double x, double y, const line_t *line)
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{
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extern int P_VanillaPointOnLineSide(double x, double y, const line_t* line);
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return i_compatflags2 & COMPATF2_POINTONLINE
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? P_VanillaPointOnLineSide(x, y, line) : P_PointOnLineSidePrecise(x, y, line);
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}
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inline int P_PointOnLineSide(const DVector2 & p, const line_t *line)
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{
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return P_PointOnLineSide(p.X, p.Y, line);
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}
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//==========================================================================
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//
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// P_PointOnDivlineSideCompat
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//
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// Same as P_PointOnLineSide except it uses divlines
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// [RH] inlined, stripped down, and made more precise
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//
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//==========================================================================
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inline int P_PointOnDivlineSide(double x, double y, const divline_t *line)
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{
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return (y - line->y) * line->dx + (line->x - x) * line->dy > EQUAL_EPSILON;
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}
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inline int P_PointOnDivlineSide(const DVector2 &pos, const divline_t *line)
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{
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return (pos.Y - line->y) * line->dx + (line->x - pos.X) * line->dy > EQUAL_EPSILON;
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}
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//==========================================================================
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//
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// P_MakeDivline
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//
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//==========================================================================
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inline void P_MakeDivline(const line_t *li, divline_t *dl)
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{
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dl->x = li->v1->fX();
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dl->y = li->v1->fY();
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dl->dx = li->Delta().X;
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dl->dy = li->Delta().Y;
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}
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struct FLineOpening
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{
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double top;
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double bottom;
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double range;
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double lowfloor;
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sector_t *bottomsec;
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sector_t *topsec;
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FTextureID ceilingpic;
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FTextureID floorpic;
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secplane_t frontfloorplane;
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secplane_t backfloorplane;
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int floorterrain;
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bool touchmidtex;
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bool abovemidtex;
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};
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static const double LINEOPEN_MIN = -FLT_MAX;
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static const double LINEOPEN_MAX = FLT_MAX;
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void P_LineOpening(FLineOpening &open, AActor *thing, const line_t *linedef, const DVector2 &xy, const DVector2 *ref = NULL, int flags = 0);
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inline void P_LineOpening(FLineOpening &open, AActor *thing, const line_t *linedef, const DVector2 &xy, const DVector3 *ref, int flags = 0)
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{
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P_LineOpening(open, thing, linedef, xy, reinterpret_cast<const DVector2*>(ref), flags);
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}
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class FBoundingBox;
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struct polyblock_t;
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//============================================================================
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//
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// This is a dynamic array which holds its first MAX_STATIC entries in normal
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// variables to avoid constant allocations which this would otherwise
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// require.
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//
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// When collecting touched portal groups the normal cases are either
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// no portals == one group or
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// two portals = two groups
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//
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// Anything with more can happen but far less infrequently, so this
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// organization helps avoiding the overhead from heap allocations
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// in the vast majority of situations.
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//
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//============================================================================
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struct FPortalGroupArray
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{
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// Controls how groups are connected
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enum
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{
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PGA_NoSectorPortals,// only collect line portals
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PGA_CheckPosition, // only collects sector portals at the actual position
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PGA_Full3d, // Goes up and down sector portals at any linedef within the bounding box (this is a lot slower and should only be done if really needed.)
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};
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enum
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{
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LOWER = 0x4000,
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UPPER = 0x8000,
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FLAT = 0xc000,
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};
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enum
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{
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MAX_STATIC = 4
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};
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FPortalGroupArray(int collectionmethod = PGA_CheckPosition)
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{
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method = collectionmethod;
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varused = 0;
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inited = false;
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}
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void Clear()
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{
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data.Clear();
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varused = 0;
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inited = false;
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}
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void Add(uint32_t num)
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{
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if (varused < MAX_STATIC) entry[varused++] = (uint16_t)num;
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else data.Push((uint16_t)num);
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}
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unsigned Size()
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{
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return varused + data.Size();
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}
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uint32_t operator[](unsigned index)
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{
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return index < MAX_STATIC ? entry[index] : data[index - MAX_STATIC];
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}
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bool inited;
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int method;
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private:
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uint16_t entry[MAX_STATIC];
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uint8_t varused;
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TArray<uint16_t> data;
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};
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class FBlockLinesIterator
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{
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friend class FMultiBlockLinesIterator;
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int minx, maxx;
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int miny, maxy;
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int curx, cury;
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polyblock_t *polyLink;
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int polyIndex;
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int *list;
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void StartBlock(int x, int y);
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FBlockLinesIterator() {}
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void init(const FBoundingBox &box);
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public:
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FBlockLinesIterator(int minx, int miny, int maxx, int maxy, bool keepvalidcount = false);
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FBlockLinesIterator(const FBoundingBox &box);
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line_t *Next();
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void Reset() { StartBlock(minx, miny); }
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};
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class FMultiBlockLinesIterator
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{
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FPortalGroupArray &checklist;
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DVector3 checkpoint;
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DVector2 offset;
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sector_t *startsector;
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sector_t *cursector;
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short basegroup;
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short portalflags;
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short index;
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bool continueup;
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bool continuedown;
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FBlockLinesIterator blockIterator;
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FBoundingBox bbox;
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bool GoUp(double x, double y);
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bool GoDown(double x, double y);
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void startIteratorForGroup(int group);
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public:
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struct CheckResult
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{
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line_t *line;
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DVector3 Position;
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int portalflags;
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};
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FMultiBlockLinesIterator(FPortalGroupArray &check, AActor *origin, double checkradius = -1);
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FMultiBlockLinesIterator(FPortalGroupArray &check, double checkx, double checky, double checkz, double checkh, double checkradius, sector_t *newsec);
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bool Next(CheckResult *item);
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void Reset();
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// for stopping group traversal through portals. Only the calling code can decide whether this is needed so this needs to be set from the outside.
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void StopUp()
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{
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continueup = false;
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}
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void StopDown()
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{
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continuedown = false;
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}
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const FBoundingBox &Box() const
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{
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return bbox;
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}
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};
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class FBlockThingsIterator
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{
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int minx, maxx;
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int miny, maxy;
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int curx, cury;
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FBlockNode *block;
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int Buckets[32];
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struct HashEntry
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{
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AActor *Actor;
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int Next;
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};
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HashEntry FixedHash[10];
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int NumFixedHash;
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TArray<HashEntry> DynHash;
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HashEntry *GetHashEntry(int i) { return i < (int)countof(FixedHash) ? &FixedHash[i] : &DynHash[i - countof(FixedHash)]; }
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void StartBlock(int x, int y);
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void SwitchBlock(int x, int y);
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void ClearHash();
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// The following is only for use in the path traverser
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// and therefore declared private.
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FBlockThingsIterator();
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friend class FPathTraverse;
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friend class FMultiBlockThingsIterator;
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public:
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FBlockThingsIterator(int minx, int miny, int maxx, int maxy);
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FBlockThingsIterator(const FBoundingBox &box)
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{
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init(box);
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}
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void init(const FBoundingBox &box);
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AActor *Next(bool centeronly = false);
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void Reset() { StartBlock(minx, miny); }
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};
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class FMultiBlockThingsIterator
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{
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FPortalGroupArray &checklist;
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DVector3 checkpoint;
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short basegroup;
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short portalflags;
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short index;
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FBlockThingsIterator blockIterator;
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FBoundingBox bbox;
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void startIteratorForGroup(int group);
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protected:
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FMultiBlockThingsIterator(FPortalGroupArray &check) : checklist(check) {}
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public:
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struct CheckResult
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{
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AActor *thing;
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DVector3 Position;
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int portalflags;
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};
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FMultiBlockThingsIterator(FPortalGroupArray &check, AActor *origin, double checkradius = -1, bool ignorerestricted = false);
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FMultiBlockThingsIterator(FPortalGroupArray &check, double checkx, double checky, double checkz, double checkh, double checkradius, bool ignorerestricted, sector_t *newsec);
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bool Next(CheckResult *item);
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void Reset();
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const FBoundingBox &Box() const
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{
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return bbox;
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}
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};
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class FPathTraverse
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{
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protected:
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static TArray<intercept_t> intercepts;
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divline_t trace;
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double Startfrac;
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unsigned int intercept_index;
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unsigned int intercept_count;
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unsigned int count;
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virtual void AddLineIntercepts(int bx, int by);
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virtual void AddThingIntercepts(int bx, int by, FBlockThingsIterator &it, bool compatible);
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FPathTraverse() {}
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public:
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intercept_t *Next();
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FPathTraverse(double x1, double y1, double x2, double y2, int flags, double startfrac = 0)
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{
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init(x1, y1, x2, y2, flags, startfrac);
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}
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void init(double x1, double y1, double x2, double y2, int flags, double startfrac = 0);
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int PortalRelocate(intercept_t *in, int flags, DVector3 *optpos = NULL);
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void PortalRelocate(const DVector2 &disp, int flags, double hitfrac);
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virtual ~FPathTraverse();
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const divline_t &Trace() const { return trace; }
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inline DVector2 InterceptPoint(const intercept_t *in)
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{
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return
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{
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trace.x + trace.dx * in->frac,
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trace.y + trace.dy * in->frac
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};
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}
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};
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//============================================================================
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//
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// A traverser that uses the portal blockmap
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// This should be in portal.h but that'd create circular dependencies.
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//
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//============================================================================
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class FLinePortalTraverse : public FPathTraverse
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{
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void AddLineIntercepts(int bx, int by);
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public:
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FLinePortalTraverse()
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{
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}
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};
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//
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// P_MAPUTL
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//
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typedef bool(*traverser_t) (intercept_t *in);
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int P_AproxDistance (int dx, int dy);
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double P_InterceptVector(const divline_t *v2, const divline_t *v1);
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#define PT_ADDLINES 1
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#define PT_ADDTHINGS 2
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#define PT_COMPATIBLE 4
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#define PT_DELTA 8 // x2,y2 is passed as a delta, not as an endpoint
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#endif |