mirror of
https://github.com/ZDoom/gzdoom-gles.git
synced 2024-11-19 02:42:01 +00:00
cf11cbdb30
SVN r4 (trunk)
187 lines
5.3 KiB
C++
187 lines
5.3 KiB
C++
#include "doomdata.h"
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#include "tarray.h"
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#include "r_defs.h"
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struct FEventInfo
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{
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int Vertex;
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DWORD FrontSeg;
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};
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struct FEvent
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{
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FEvent *Parent, *Left, *Right;
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enum { RED, BLACK } Color;
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double Distance;
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FEventInfo Info;
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};
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class FEventTree
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{
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public:
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FEventTree ();
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~FEventTree ();
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FEvent *GetMinimum ();
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FEvent *GetSuccessor (FEvent *event) const { FEvent *node = Successor(event); return node == &Nil ? NULL : node; }
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FEvent *GetPredecessor (FEvent *event) const { FEvent *node = Predecessor(event); return node == &Nil ? NULL : node; }
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FEvent *GetNewNode ();
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void Insert (FEvent *event);
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void Delete (FEvent *event);
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FEvent *FindEvent (double distance) const;
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void DeleteAll ();
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private:
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FEvent Nil;
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FEvent *Root;
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FEvent *Spare;
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void LeftRotate (FEvent *event);
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void RightRotate (FEvent *event);
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void DeleteFixUp (FEvent *event);
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void DeletionTraverser (FEvent *event);
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FEvent *Successor (FEvent *event) const;
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FEvent *Predecessor (FEvent *event) const;
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};
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class FNodeBuilder
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{
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struct FPrivSeg
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{
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int v1, v2;
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int sidedef;
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int linedef;
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sector_t *frontsector;
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sector_t *backsector;
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DWORD next;
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DWORD nextforvert;
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DWORD nextforvert2;
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int loopnum; // loop number for split avoidance (0 means splitting is okay)
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DWORD partner; // seg on back side
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DWORD storedseg; // seg # in the GL_SEGS lump
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int planenum;
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bool planefront;
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FPrivSeg *hashnext;
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};
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struct FPrivVert
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{
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fixed_t x, y;
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DWORD segs; // segs that use this vertex as v1
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DWORD segs2; // segs that use this vertex as v2
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bool operator== (const FPrivVert &other)
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{
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return x == other.x && y == other.y;
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}
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};
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struct FSimpleLine
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{
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fixed_t x, y, dx, dy;
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};
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union USegPtr
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{
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DWORD SegNum;
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FPrivSeg *SegPtr;
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};
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struct FSplitSharer
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{
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double Distance;
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DWORD Seg;
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bool Forward;
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};
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public:
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struct FLevel
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{
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vertex_t *Vertices; int NumVertices;
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side_t *Sides; int NumSides;
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line_t *Lines; int NumLines;
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};
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struct FPolyStart
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{
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int polynum;
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fixed_t x, y;
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};
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FNodeBuilder (FLevel &level,
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TArray<FPolyStart> &polyspots, TArray<FPolyStart> &anchors,
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bool makeGLNodes);
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void Extract (node_t *&nodes, int &nodeCount,
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seg_t *&segs, int &segCount,
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subsector_t *&ssecs, int &subCount,
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vertex_t *&verts, int &vertCount);
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static angle_t PointToAngle (fixed_t dx, fixed_t dy);
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private:
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TArray<node_t> Nodes;
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TArray<subsector_t> Subsectors;
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TArray<DWORD> SubsectorSets;
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TArray<FPrivSeg> Segs;
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TArray<FPrivVert> Vertices;
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TArray<USegPtr> SegList;
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TArray<BYTE> PlaneChecked;
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TArray<FSimpleLine> Planes;
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TArray<int> Touched; // Loops a splitter touches on a vertex
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TArray<int> Colinear; // Loops with edges colinear to a splitter
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FEventTree Events; // Vertices intersected by the current splitter
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TArray<FSplitSharer> SplitSharers; // Segs collinear with the current splitter
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DWORD HackSeg; // Seg to force to back of splitter
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FLevel &Level;
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bool GLNodes; // Add minisegs to make GL nodes?
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// Progress meter stuff
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int SegsStuffed;
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void FindUsedVertices (vertex_t *vertices, int max);
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int SelectVertexExact (FPrivVert &vertex);
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void BuildTree ();
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void MakeSegsFromSides ();
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FPrivSeg *CheckSegForDuplicate (const FPrivSeg *check);
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void GroupSegPlanes ();
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void FindPolyContainers (TArray<FPolyStart> &spots, TArray<FPolyStart> &anchors);
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bool GetPolyExtents (int polynum, fixed_t bbox[4]);
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int MarkLoop (DWORD firstseg, int loopnum);
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void AddSegToBBox (fixed_t bbox[4], const FPrivSeg *seg);
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int CreateNode (DWORD set, fixed_t bbox[4]);
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int CreateSubsector (DWORD set, fixed_t bbox[4]);
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void CreateSubsectorsForReal ();
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bool CheckSubsector (DWORD set, node_t &node, DWORD &splitseg, int setsize);
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int SelectSplitter (DWORD set, node_t &node, DWORD &splitseg, int step, bool nosplit);
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void SplitSegs (DWORD set, node_t &node, DWORD splitseg, DWORD &outset0, DWORD &outset1);
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DWORD SplitSeg (DWORD segnum, int splitvert, int v1InFront);
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int Heuristic (node_t &node, DWORD set, bool honorNoSplit);
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int ClassifyLine (node_t &node, const FPrivSeg *seg, int &sidev1, int &sidev2);
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int CountSegs (DWORD set) const;
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void FixSplitSharers (const node_t &node);
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double AddIntersection (const node_t &node, int vertex);
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void AddMinisegs (const node_t &node, DWORD splitseg, DWORD &fset, DWORD &rset);
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DWORD CheckLoopStart (fixed_t dx, fixed_t dy, int vertex1, int vertex2);
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DWORD CheckLoopEnd (fixed_t dx, fixed_t dy, int vertex1, int vertex2);
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void RemoveSegFromVert1 (DWORD segnum, int vertnum);
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void RemoveSegFromVert2 (DWORD segnum, int vertnum);
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DWORD AddMiniseg (int v1, int v2, DWORD partner, DWORD seg1, DWORD splitseg);
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void SetNodeFromSeg (node_t &node, const FPrivSeg *pseg) const;
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int CloseSubsector (TArray<seg_t> &segs, int subsector, vertex_t *outVerts);
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DWORD PushGLSeg (TArray<seg_t> &segs, const FPrivSeg *seg, vertex_t *outVerts);
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void PushConnectingGLSeg (int subsector, TArray<seg_t> &segs, vertex_t *v1, vertex_t *v2);
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static int STACK_ARGS SortSegs (const void *a, const void *b);
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// < 0 : in front of line
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// == 0 : on line
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// > 0 : behind line
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int PointOnSide (int x, int y, int x1, int y1, int dx, int dy);
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double InterceptVector (const node_t &splitter, const FPrivSeg &seg);
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void PrintSet (int l, DWORD set);
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};
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