/*

Copyright 1987, 1998  The Open Group

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*/

/*
 *     fill.h
 *
 *     Created by Brian Kelleher; Oct 1985
 *
 *     Include file for filled polygon routines.
 *
 *     These are the data structures needed to scan
 *     convert regions.  Two different scan conversion
 *     methods are available -- the even-odd method, and
 *     the winding number method.
 *     The even-odd rule states that a point is inside
 *     the polygon if a ray drawn from that point in any
 *     direction will pass through an odd number of
 *     path segments.
 *     By the winding number rule, a point is decided
 *     to be inside the polygon if a ray drawn from that
 *     point in any direction passes through a different
 *     number of clockwise and counter-clockwise path
 *     segments.
 *
 *     These data structures are adapted somewhat from
 *     the algorithm in (Foley/Van Dam) for scan converting
 *     polygons.
 *     The basic algorithm is to start at the top (smallest y)
 *     of the polygon, stepping down to the bottom of
 *     the polygon by incrementing the y coordinate.  We
 *     keep a list of edges which the current scanline crosses,
 *     sorted by x.  This list is called the Active Edge Table (AET)
 *     As we change the y-coordinate, we update each entry in 
 *     in the active edge table to reflect the edges new xcoord.
 *     This list must be sorted at each scanline in case
 *     two edges intersect.
 *     We also keep a data structure known as the Edge Table (ET),
 *     which keeps track of all the edges which the current
 *     scanline has not yet reached.  The ET is basically a
 *     list of ScanLineList structures containing a list of
 *     edges which are entered at a given scanline.  There is one
 *     ScanLineList per scanline at which an edge is entered.
 *     When we enter a new edge, we move it from the ET to the AET.
 *
 *     From the AET, we can implement the even-odd rule as in
 *     (Foley/Van Dam).
 *     The winding number rule is a little trickier.  We also
 *     keep the EdgeTableEntries in the AET linked by the
 *     nextWETE (winding EdgeTableEntry) link.  This allows
 *     the edges to be linked just as before for updating
 *     purposes, but only uses the edges linked by the nextWETE
 *     link as edges representing spans of the polygon to
 *     drawn (as with the even-odd rule).
 */

/*
 * for the winding number rule
 */
#define CLOCKWISE          1
#define COUNTERCLOCKWISE  -1

typedef struct _EdgeTableEntry {
    int ymax;                   /* ycoord at which we exit this edge. */
    BRESINFO bres;              /* Bresenham info to run the edge     */
    struct _EdgeTableEntry *next;       /* next in the list     */
    struct _EdgeTableEntry *back;       /* for insertion sort   */
    struct _EdgeTableEntry *nextWETE;   /* for winding num rule */
    int ClockWise;              /* flag for winding number rule       */
} EdgeTableEntry;

typedef struct _ScanLineList {
    int scanline;               /* the scanline represented */
    EdgeTableEntry *edgelist;   /* header node              */
    struct _ScanLineList *next; /* next in the list       */
} ScanLineList;

typedef struct {
    int ymax;                   /* ymax for the polygon     */
    int ymin;                   /* ymin for the polygon     */
    ScanLineList scanlines;     /* header node              */
} EdgeTable;

/*
 * Here is a struct to help with storage allocation
 * so we can allocate a big chunk at a time, and then take
 * pieces from this heap when we need to.
 */
#define SLLSPERBLOCK 25

typedef struct _ScanLineListBlock {
    ScanLineList SLLs[SLLSPERBLOCK];
    struct _ScanLineListBlock *next;
} ScanLineListBlock;

/*
 * number of points to buffer before sending them off
 * to scanlines() :  Must be an even number
 */
#define NUMPTSTOBUFFER 200

/*
 *
 *     a few macros for the inner loops of the fill code where
 *     performance considerations don't allow a procedure call.
 *
 *     Evaluate the given edge at the given scanline.
 *     If the edge has expired, then we leave it and fix up
 *     the active edge table; otherwise, we increment the
 *     x value to be ready for the next scanline.
 *     The winding number rule is in effect, so we must notify
 *     the caller when the edge has been removed so he
 *     can reorder the Winding Active Edge Table.
 */
#define EVALUATEEDGEWINDING(pAET, pPrevAET, y, fixWAET) { \
   if (pAET->ymax == y) {          /* leaving this edge */ \
      pPrevAET->next = pAET->next; \
      pAET = pPrevAET->next; \
      fixWAET = 1; \
      if (pAET) \
         pAET->back = pPrevAET; \
   } \
   else { \
      BRESINCRPGONSTRUCT(pAET->bres); \
      pPrevAET = pAET; \
      pAET = pAET->next; \
   } \
}

/*
 *     Evaluate the given edge at the given scanline.
 *     If the edge has expired, then we leave it and fix up
 *     the active edge table; otherwise, we increment the
 *     x value to be ready for the next scanline.
 *     The even-odd rule is in effect.
 */
#define EVALUATEEDGEEVENODD(pAET, pPrevAET, y) { \
   if (pAET->ymax == y) {          /* leaving this edge */ \
      pPrevAET->next = pAET->next; \
      pAET = pPrevAET->next; \
      if (pAET) \
         pAET->back = pPrevAET; \
   } \
   else { \
      BRESINCRPGONSTRUCT(pAET->bres); \
      pPrevAET = pAET; \
      pAET = pAET->next; \
   } \
}

/* mipolyutil.c */

extern _X_EXPORT Bool miCreateETandAET(int /*count */ ,
                                       DDXPointPtr /*pts */ ,
                                       EdgeTable * /*ET*/,
                                       EdgeTableEntry * /*AET*/,
                                       EdgeTableEntry * /*pETEs */ ,
                                       ScanLineListBlock *      /*pSLLBlock */
    );

extern _X_EXPORT void miloadAET(EdgeTableEntry * /*AET*/, EdgeTableEntry *      /*ETEs */
    );

extern _X_EXPORT void micomputeWAET(EdgeTableEntry * /*AET*/);

extern _X_EXPORT int miInsertionSort(EdgeTableEntry * /*AET*/);

extern _X_EXPORT void miFreeStorage(ScanLineListBlock * /*pSLLBlock */
    );