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/* $TOG: Region.c /main/31 1998/02/06 17:50:22 kaleb $ */
/************************************************************************

Copyright 1987, 1988, 1998  The Open Group

All Rights Reserved.

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

Except as contained in this notice, the name of The Open Group shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from The Open Group.


Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts.

                        All Rights Reserved

Permission to use, copy, modify, and distribute this software and its 
documentation for any purpose and without fee is hereby granted, 
provided that the above copyright notice appear in all copies and that
both that copyright notice and this permission notice appear in 
supporting documentation, and that the name of Digital not be
used in advertising or publicity pertaining to distribution of the
software without specific, written prior permission.  

DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
SOFTWARE.

************************************************************************/
/* $XFree86: xc/lib/X11/Region.c,v 1.5 1999/05/09 10:50:01 dawes Exp $ */
/*
 * The functions in this file implement the Region abstraction, similar to one
 * used in the X11 sample server. A Region is simply an area, as the name
 * implies, and is implemented as a "y-x-banded" array of rectangles. To
 * explain: Each Region is made up of a certain number of rectangles sorted
 * by y coordinate first, and then by x coordinate.
 *
 * Furthermore, the rectangles are banded such that every rectangle with a
 * given upper-left y coordinate (y1) will have the same lower-right y
 * coordinate (y2) and vice versa. If a rectangle has scanlines in a band, it
 * will span the entire vertical distance of the band. This means that some
 * areas that could be merged into a taller rectangle will be represented as
 * several shorter rectangles to account for shorter rectangles to its left
 * or right but within its "vertical scope".
 *
 * An added constraint on the rectangles is that they must cover as much
 * horizontal area as possible. E.g. no two rectangles in a band are allowed
 * to touch.
 *
 * Whenever possible, bands will be merged together to cover a greater vertical
 * distance (and thus reduce the number of rectangles). Two bands can be merged
 * only if the bottom of one touches the top of the other and they have
 * rectangles in the same places (of the same width, of course). This maintains
 * the y-x-banding that's so nice to have...
 */

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#include <config.h>
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#include <stdlib.h>
#include <string.h>
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#include <gdkregion.h>
#include "gdkregion-generic.h"
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#include "gdkalias.h"
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typedef void (*overlapFunc) (GdkRegion    *pReg,
			     GdkRegionBox *r1,
			     GdkRegionBox *r1End,
			     GdkRegionBox *r2,
			     GdkRegionBox *r2End,
			     gint          y1,
			     gint          y2);
typedef void (*nonOverlapFunc) (GdkRegion    *pReg,
				GdkRegionBox *r,
				GdkRegionBox *rEnd,
				gint          y1,
				gint          y2);

static void miRegionCopy (GdkRegion      *dstrgn,
			  GdkRegion      *rgn);
static void miRegionOp   (GdkRegion      *newReg,
			  GdkRegion      *reg1,
			  GdkRegion      *reg2,
			  overlapFunc     overlapFn,
			  nonOverlapFunc  nonOverlap1Fn,
			  nonOverlapFunc  nonOverlap2Fn);

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/**
 * gdk_region_new:
 *
 * Creates a new empty #GdkRegion.
 *
 * Returns: a new empty #GdkRegion
 */
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GdkRegion *
gdk_region_new ()
{
  GdkRegion *temp;

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  temp = g_slice_new (GdkRegion);
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  temp->numRects = 0;
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  temp->rects = &temp->extents;
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  temp->extents.x1 = 0;
  temp->extents.y1 = 0;
  temp->extents.x2 = 0;
  temp->extents.y2 = 0;
  temp->size = 1;
  
  return temp;
}

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/**
 * gdk_region_rectangle:
 * @rectangle: a #GdkRectangle
 * 
 * Creates a new region containing the area @rectangle.
 * 
 * Return value: a new region
 **/
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GdkRegion *
gdk_region_rectangle (GdkRectangle *rectangle)
{
  GdkRegion *temp;

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  g_return_val_if_fail (rectangle != NULL, NULL);

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  if (rectangle->width <= 0 || rectangle->height <= 0)
    return gdk_region_new();

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  temp = g_slice_new (GdkRegion);
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  temp->numRects = 1;
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  temp->rects = &temp->extents;
  temp->extents.x1 = rectangle->x;
  temp->extents.y1 = rectangle->y;
  temp->extents.x2 = rectangle->x + rectangle->width;
  temp->extents.y2 = rectangle->y + rectangle->height;
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  temp->size = 1;
  
  return temp;
}

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/**
 * gdk_region_copy:
 * @region: a #GdkRegion
 * 
 * Copies @region, creating an identical new region.
 * 
 * Return value: a new region identical to @region
 **/
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GdkRegion *
gdk_region_copy (GdkRegion *region)
{
  GdkRegion *temp;

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  g_return_val_if_fail (region != NULL, NULL);

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  temp = gdk_region_new ();
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  miRegionCopy (temp, region);
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  return temp;
}

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/**
 * gdk_region_get_clipbox:
 * @region: a #GdkRegion
 * @rectangle: return location for the clipbox
 *
 * Returns the smallest rectangle which includes the entire #GdkRegion.
 */
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void
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gdk_region_get_clipbox (GdkRegion    *region, 
			GdkRectangle *rectangle)
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{
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  g_return_if_fail (region != NULL);
  g_return_if_fail (rectangle != NULL);
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  rectangle->x = region->extents.x1;
  rectangle->y = region->extents.y1;
  rectangle->width = region->extents.x2 - region->extents.x1;
  rectangle->height = region->extents.y2 - region->extents.y1;
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}

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/**
 * gdk_region_get_rectangles:
 * @region: a #GdkRegion
 * @rectangles: return location for an array of rectangles
 * @n_rectangles: length of returned array
 *
 * Obtains the area covered by the region as a list of rectangles.
 * The array returned in @rectangles must be freed with g_free().
 **/
void
gdk_region_get_rectangles (GdkRegion     *region,
                           GdkRectangle **rectangles,
                           gint          *n_rectangles)
{
  gint i;
  
  g_return_if_fail (region != NULL);
  g_return_if_fail (rectangles != NULL);
  g_return_if_fail (n_rectangles != NULL);
  
  *n_rectangles = region->numRects;
  *rectangles = g_new (GdkRectangle, region->numRects);

  for (i = 0; i < region->numRects; i++)
    {
      GdkRegionBox rect;
      rect = region->rects[i];
      (*rectangles)[i].x = rect.x1;
      (*rectangles)[i].y = rect.y1;
      (*rectangles)[i].width = rect.x2 - rect.x1;
      (*rectangles)[i].height = rect.y2 - rect.y1;
    }
}

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/**
 * gdk_region_union_with_rect:
 * @region: a #GdkRegion.
 * @rect: a #GdkRectangle.
 * 
 * Sets the area of @region to the union of the areas of @region and
 * @rect. The resulting area is the set of pixels contained in
 * either @region or @rect.
 **/
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void
gdk_region_union_with_rect (GdkRegion    *region,
			    GdkRectangle *rect)
{
  GdkRegion tmp_region;

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  g_return_if_fail (region != NULL);
  g_return_if_fail (rect != NULL);

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  if (rect->width <= 0 || rect->height <= 0)
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    return;
    
  tmp_region.rects = &tmp_region.extents;
  tmp_region.numRects = 1;
  tmp_region.extents.x1 = rect->x;
  tmp_region.extents.y1 = rect->y;
  tmp_region.extents.x2 = rect->x + rect->width;
  tmp_region.extents.y2 = rect->y + rect->height;
  tmp_region.size = 1;

  gdk_region_union (region, &tmp_region);
}

/*-
 *-----------------------------------------------------------------------
 * miSetExtents --
 *	Reset the extents of a region to what they should be. Called by
 *	miSubtract and miIntersect b/c they can't figure it out along the
 *	way or do so easily, as miUnion can.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	The region's 'extents' structure is overwritten.
 *
 *-----------------------------------------------------------------------
 */
static void
miSetExtents (GdkRegion *pReg)
{
  GdkRegionBox *pBox, *pBoxEnd, *pExtents;

  if (pReg->numRects == 0)
    {
      pReg->extents.x1 = 0;
      pReg->extents.y1 = 0;
      pReg->extents.x2 = 0;
      pReg->extents.y2 = 0;
      return;
    }
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  pExtents = &pReg->extents;
  pBox = pReg->rects;
  pBoxEnd = &pBox[pReg->numRects - 1];

    /*
     * Since pBox is the first rectangle in the region, it must have the
     * smallest y1 and since pBoxEnd is the last rectangle in the region,
     * it must have the largest y2, because of banding. Initialize x1 and
     * x2 from  pBox and pBoxEnd, resp., as good things to initialize them
     * to...
     */
  pExtents->x1 = pBox->x1;
  pExtents->y1 = pBox->y1;
  pExtents->x2 = pBoxEnd->x2;
  pExtents->y2 = pBoxEnd->y2;

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  g_assert(pExtents->y1 < pExtents->y2);
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  while (pBox <= pBoxEnd)
    {
      if (pBox->x1 < pExtents->x1)
	{
	  pExtents->x1 = pBox->x1;
	}
      if (pBox->x2 > pExtents->x2)
	{
	  pExtents->x2 = pBox->x2;
	}
      pBox++;
    }
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  g_assert(pExtents->x1 < pExtents->x2);
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}

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/**
 * gdk_region_destroy:
 * @region: a #GdkRegion
 *
 * Destroys a #GdkRegion.
 */
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void
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gdk_region_destroy (GdkRegion *region)
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{
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  g_return_if_fail (region != NULL);
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  if (region->rects != &region->extents)
    g_free (region->rects);
  g_slice_free (GdkRegion, region);
}
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/**
 * gdk_region_offset:
 * @region: a #GdkRegion
 * @dx: the distance to move the region horizontally
 * @dy: the distance to move the region vertically
 *
 * Moves a region the specified distance.
 */
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void
gdk_region_offset (GdkRegion *region,
		   gint       x,
		   gint       y)
{
  int nbox;
  GdkRegionBox *pbox;

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  g_return_if_fail (region != NULL);

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  pbox = region->rects;
  nbox = region->numRects;

  while(nbox--)
    {
      pbox->x1 += x;
      pbox->x2 += x;
      pbox->y1 += y;
      pbox->y2 += y;
      pbox++;
    }
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  if (region->rects != &region->extents)
    {
      region->extents.x1 += x;
      region->extents.x2 += x;
      region->extents.y1 += y;
      region->extents.y2 += y;
    }
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}

/* 
   Utility procedure Compress:
   Replace r by the region r', where 
     p in r' iff (Quantifer m <= dx) (p + m in r), and
     Quantifier is Exists if grow is TRUE, For all if grow is FALSE, and
     (x,y) + m = (x+m,y) if xdir is TRUE; (x,y+m) if xdir is FALSE.

   Thus, if xdir is TRUE and grow is FALSE, r is replaced by the region
   of all points p such that p and the next dx points on the same
   horizontal scan line are all in r.  We do this using by noting
   that p is the head of a run of length 2^i + k iff p is the head
   of a run of length 2^i and p+2^i is the head of a run of length
   k. Thus, the loop invariant: s contains the region corresponding
   to the runs of length shift.  r contains the region corresponding
   to the runs of length 1 + dxo & (shift-1), where dxo is the original
   value of dx.  dx = dxo & ~(shift-1).  As parameters, s and t are
   scratch regions, so that we don't have to allocate them on every
   call.
*/

#define ZOpRegion(a,b) if (grow) gdk_region_union (a, b); \
			 else gdk_region_intersect (a,b)
#define ZShiftRegion(a,b) if (xdir) gdk_region_offset (a,b,0); \
			  else gdk_region_offset (a,0,b)

static void
Compress(GdkRegion *r,
	 GdkRegion *s,
	 GdkRegion *t,
	 guint      dx,
	 int        xdir,
	 int        grow)
{
  guint shift = 1;

  miRegionCopy (s, r);
  while (dx)
    {
      if (dx & shift)
	{
	  ZShiftRegion(r, -(int)shift);
	  ZOpRegion(r, s);
	  dx -= shift;
	  if (!dx) break;
        }
      miRegionCopy (t, s);
      ZShiftRegion(s, -(int)shift);
      ZOpRegion(s, t);
      shift <<= 1;
    }
}

#undef ZOpRegion
#undef ZShiftRegion
#undef ZCopyRegion

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/**
 * gdk_region_shrink:
 * @region: a #GdkRegion
 * @dx: the number of pixels to shrink the region horizontally
 * @dy: the number of pixels to shrink the region vertically
 *
 * Resizes a region by the specified amount.
 * Positive values shrink the region. Negative values expand it.
 */
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void
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gdk_region_shrink (GdkRegion *region,
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		   int        dx,
		   int        dy)
{
  GdkRegion *s, *t;
  int grow;

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  g_return_if_fail (region != NULL);
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  if (!dx && !dy)
    return;

  s = gdk_region_new ();
  t = gdk_region_new ();

  grow = (dx < 0);
  if (grow)
    dx = -dx;
  if (dx)
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     Compress(region, s, t, (unsigned) 2*dx, TRUE, grow);
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  grow = (dy < 0);
  if (grow)
    dy = -dy;
  if (dy)
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     Compress(region, s, t, (unsigned) 2*dy, FALSE, grow);
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  gdk_region_offset (region, dx, dy);
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  gdk_region_destroy (s);
  gdk_region_destroy (t);
}


/*======================================================================
 *	    Region Intersection
 *====================================================================*/
/*-
 *-----------------------------------------------------------------------
 * miIntersectO --
 *	Handle an overlapping band for miIntersect.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	Rectangles may be added to the region.
 *
 *-----------------------------------------------------------------------
 */
/* static void*/
static void
miIntersectO (GdkRegion    *pReg,
	      GdkRegionBox *r1,
	      GdkRegionBox *r1End,
	      GdkRegionBox *r2,
	      GdkRegionBox *r2End,
	      gint          y1,
	      gint          y2)
{
  int  	x1;
  int  	x2;
  GdkRegionBox *pNextRect;

  pNextRect = &pReg->rects[pReg->numRects];

  while ((r1 != r1End) && (r2 != r2End))
    {
      x1 = MAX (r1->x1,r2->x1);
      x2 = MIN (r1->x2,r2->x2);

      /*
       * If there's any overlap between the two rectangles, add that
       * overlap to the new region.
       * There's no need to check for subsumption because the only way
       * such a need could arise is if some region has two rectangles
       * right next to each other. Since that should never happen...
       */
      if (x1 < x2)
	{
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	  g_assert (y1<y2);
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	  MEMCHECK (pReg, pNextRect, pReg->rects);
	  pNextRect->x1 = x1;
	  pNextRect->y1 = y1;
	  pNextRect->x2 = x2;
	  pNextRect->y2 = y2;
	  pReg->numRects += 1;
	  pNextRect++;
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	  g_assert (pReg->numRects <= pReg->size);
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	}

      /*
       * Need to advance the pointers. Shift the one that extends
       * to the right the least, since the other still has a chance to
       * overlap with that region's next rectangle, if you see what I mean.
       */
      if (r1->x2 < r2->x2)
	{
	  r1++;
	}
      else if (r2->x2 < r1->x2)
	{
	  r2++;
	}
      else
	{
	  r1++;
	  r2++;
	}
    }
}

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/**
 * gdk_region_intersect:
 * @source1: a #GdkRegion
 * @source2: another #GdkRegion
 *
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 * Sets the area of @source1 to the intersection of the areas of @source1
 * and @source2. The resulting area is the set of pixels contained in
 * both @source1 and @source2.
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 **/
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void
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gdk_region_intersect (GdkRegion *source1,
		      GdkRegion *source2)
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{
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  g_return_if_fail (source1 != NULL);
  g_return_if_fail (source2 != NULL);
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  /* check for trivial reject */
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  if ((!(source1->numRects)) || (!(source2->numRects))  ||
      (!EXTENTCHECK(&source1->extents, &source2->extents)))
    source1->numRects = 0;
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  else
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    miRegionOp (source1, source1, source2, 
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    		miIntersectO, (nonOverlapFunc) NULL, (nonOverlapFunc) NULL);
    
  /*
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   * Can't alter source1's extents before miRegionOp depends on the
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   * extents of the regions being unchanged. Besides, this way there's
   * no checking against rectangles that will be nuked due to
   * coalescing, so we have to examine fewer rectangles.
   */
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  miSetExtents(source1);
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}

static void
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miRegionCopy (GdkRegion *dstrgn, 
	      GdkRegion *rgn)
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{
  if (dstrgn != rgn) /*  don't want to copy to itself */
    {  
      if (dstrgn->size < rgn->numRects)
        {
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	  if (dstrgn->rects != &dstrgn->extents)
	    g_free (dstrgn->rects);

	  dstrgn->rects = g_new (GdkRegionBox, rgn->numRects);
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	  dstrgn->size = rgn->numRects;
	}
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      dstrgn->numRects = rgn->numRects;
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      dstrgn->extents = rgn->extents;
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      memcpy (dstrgn->rects, rgn->rects, rgn->numRects * sizeof (GdkRegionBox));
    }
}


/*======================================================================
 *	    Generic Region Operator
 *====================================================================*/

/*-
 *-----------------------------------------------------------------------
 * miCoalesce --
 *	Attempt to merge the boxes in the current band with those in the
 *	previous one. Used only by miRegionOp.
 *
 * Results:
 *	The new index for the previous band.
 *
 * Side Effects:
 *	If coalescing takes place:
 *	    - rectangles in the previous band will have their y2 fields
 *	      altered.
 *	    - pReg->numRects will be decreased.
 *
 *-----------------------------------------------------------------------
 */
/* static int*/
static int
miCoalesce (GdkRegion *pReg,         /* Region to coalesce */
	    gint       prevStart,    /* Index of start of previous band */
	    gint       curStart)     /* Index of start of current band */
{
  GdkRegionBox *pPrevBox;   	/* Current box in previous band */
  GdkRegionBox *pCurBox;    	/* Current box in current band */
  GdkRegionBox *pRegEnd;    	/* End of region */
  int	    	curNumRects;	/* Number of rectangles in current
				 * band */
  int	    	prevNumRects;	/* Number of rectangles in previous
				 * band */
  int	    	bandY1;	    	/* Y1 coordinate for current band */

  pRegEnd = &pReg->rects[pReg->numRects];

  pPrevBox = &pReg->rects[prevStart];
  prevNumRects = curStart - prevStart;

    /*
     * Figure out how many rectangles are in the current band. Have to do
     * this because multiple bands could have been added in miRegionOp
     * at the end when one region has been exhausted.
     */
  pCurBox = &pReg->rects[curStart];
  bandY1 = pCurBox->y1;
  for (curNumRects = 0;
       (pCurBox != pRegEnd) && (pCurBox->y1 == bandY1);
       curNumRects++)
    {
      pCurBox++;
    }
    
  if (pCurBox != pRegEnd)
    {
      /*
       * If more than one band was added, we have to find the start
       * of the last band added so the next coalescing job can start
       * at the right place... (given when multiple bands are added,
       * this may be pointless -- see above).
       */
      pRegEnd--;
      while (pRegEnd[-1].y1 == pRegEnd->y1)
	{
	  pRegEnd--;
	}
      curStart = pRegEnd - pReg->rects;
      pRegEnd = pReg->rects + pReg->numRects;
    }
	
  if ((curNumRects == prevNumRects) && (curNumRects != 0)) {
    pCurBox -= curNumRects;
    /*
     * The bands may only be coalesced if the bottom of the previous
     * matches the top scanline of the current.
     */
    if (pPrevBox->y2 == pCurBox->y1)
      {
	/*
	 * Make sure the bands have boxes in the same places. This
	 * assumes that boxes have been added in such a way that they
	 * cover the most area possible. I.e. two boxes in a band must
	 * have some horizontal space between them.
	 */
	do
	  {
	    if ((pPrevBox->x1 != pCurBox->x1) ||
		(pPrevBox->x2 != pCurBox->x2))
	      {
		/*
		 * The bands don't line up so they can't be coalesced.
		 */
		return (curStart);
	      }
	    pPrevBox++;
	    pCurBox++;
	    prevNumRects -= 1;
	  } while (prevNumRects != 0);

	pReg->numRects -= curNumRects;
	pCurBox -= curNumRects;
	pPrevBox -= curNumRects;

	/*
	 * The bands may be merged, so set the bottom y of each box
	 * in the previous band to that of the corresponding box in
	 * the current band.
	 */
	do
	  {
	    pPrevBox->y2 = pCurBox->y2;
	    pPrevBox++;
	    pCurBox++;
	    curNumRects -= 1;
	  }
	while (curNumRects != 0);

	/*
	 * If only one band was added to the region, we have to backup
	 * curStart to the start of the previous band.
	 *
	 * If more than one band was added to the region, copy the
	 * other bands down. The assumption here is that the other bands
	 * came from the same region as the current one and no further
	 * coalescing can be done on them since it's all been done
	 * already... curStart is already in the right place.
	 */
	if (pCurBox == pRegEnd)
	  {
	    curStart = prevStart;
	  }
	else
	  {
	    do
	      {
		*pPrevBox++ = *pCurBox++;
	      }
	    while (pCurBox != pRegEnd);
	  }
	    
      }
  }
  return curStart;
}

/*-
 *-----------------------------------------------------------------------
 * miRegionOp --
 *	Apply an operation to two regions. Called by miUnion, miInverse,
 *	miSubtract, miIntersect...
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	The new region is overwritten.
 *
 * Notes:
 *	The idea behind this function is to view the two regions as sets.
 *	Together they cover a rectangle of area that this function divides
 *	into horizontal bands where points are covered only by one region
 *	or by both. For the first case, the nonOverlapFunc is called with
 *	each the band and the band's upper and lower extents. For the
 *	second, the overlapFunc is called to process the entire band. It
 *	is responsible for clipping the rectangles in the band, though
 *	this function provides the boundaries.
 *	At the end of each band, the new region is coalesced, if possible,
 *	to reduce the number of rectangles in the region.
 *
 *-----------------------------------------------------------------------
 */
/* static void*/
static void
miRegionOp(GdkRegion *newReg,
	   GdkRegion *reg1,
	   GdkRegion *reg2,
	   overlapFunc    overlapFn,   	        /* Function to call for over-
						 * lapping bands */
	   nonOverlapFunc nonOverlap1Fn,	/* Function to call for non-
						 * overlapping bands in region
						 * 1 */
	   nonOverlapFunc nonOverlap2Fn)	/* Function to call for non-
						 * overlapping bands in region
						 * 2 */
{
    GdkRegionBox *r1; 	    	    	/* Pointer into first region */
    GdkRegionBox *r2; 	    	    	/* Pointer into 2d region */
    GdkRegionBox *r1End;    	    	/* End of 1st region */
    GdkRegionBox *r2End;    	    	/* End of 2d region */
    int    	  ybot;	    	    	/* Bottom of intersection */
    int  	  ytop;	    	    	/* Top of intersection */
    GdkRegionBox *oldRects;   	    	/* Old rects for newReg */
    int	    	  prevBand;   	    	/* Index of start of
					 * previous band in newReg */
    int	  	  curBand;    	    	/* Index of start of current
					 * band in newReg */
    GdkRegionBox *r1BandEnd;  	    	/* End of current band in r1 */
    GdkRegionBox *r2BandEnd;  	    	/* End of current band in r2 */
    int     	  top;	    	    	/* Top of non-overlapping
					 * band */
    int     	  bot;	    	    	/* Bottom of non-overlapping
					 * band */
    
    /*
     * Initialization:
     *	set r1, r2, r1End and r2End appropriately, preserve the important
     * parts of the destination region until the end in case it's one of
     * the two source regions, then mark the "new" region empty, allocating
     * another array of rectangles for it to use.
     */
    r1 = reg1->rects;
    r2 = reg2->rects;
    r1End = r1 + reg1->numRects;
    r2End = r2 + reg2->numRects;
    
    oldRects = newReg->rects;
    
    EMPTY_REGION(newReg);

    /*
     * Allocate a reasonable number of rectangles for the new region. The idea
     * is to allocate enough so the individual functions don't need to
     * reallocate and copy the array, which is time consuming, yet we don't
     * have to worry about using too much memory. I hope to be able to
     * nuke the Xrealloc() at the end of this function eventually.
     */
    newReg->size = MAX (reg1->numRects, reg2->numRects) * 2;
    newReg->rects = g_new (GdkRegionBox, newReg->size);
    
    /*
     * Initialize ybot and ytop.
     * In the upcoming loop, ybot and ytop serve different functions depending
     * on whether the band being handled is an overlapping or non-overlapping
     * band.
     * 	In the case of a non-overlapping band (only one of the regions
     * has points in the band), ybot is the bottom of the most recent
     * intersection and thus clips the top of the rectangles in that band.
     * ytop is the top of the next intersection between the two regions and
     * serves to clip the bottom of the rectangles in the current band.
     *	For an overlapping band (where the two regions intersect), ytop clips
     * the top of the rectangles of both regions and ybot clips the bottoms.
     */
    if (reg1->extents.y1 < reg2->extents.y1)
      ybot = reg1->extents.y1;
    else
      ybot = reg2->extents.y1;
    
    /*
     * prevBand serves to mark the start of the previous band so rectangles
     * can be coalesced into larger rectangles. qv. miCoalesce, above.
     * In the beginning, there is no previous band, so prevBand == curBand
     * (curBand is set later on, of course, but the first band will always
     * start at index 0). prevBand and curBand must be indices because of
     * the possible expansion, and resultant moving, of the new region's
     * array of rectangles.
     */
    prevBand = 0;
    
    do
      {
	curBand = newReg->numRects;

	/*
	 * This algorithm proceeds one source-band (as opposed to a
	 * destination band, which is determined by where the two regions
	 * intersect) at a time. r1BandEnd and r2BandEnd serve to mark the
	 * rectangle after the last one in the current band for their
	 * respective regions.
	 */
	r1BandEnd = r1;
	while ((r1BandEnd != r1End) && (r1BandEnd->y1 == r1->y1))
	  {
	    r1BandEnd++;
	  }
	
	r2BandEnd = r2;
	while ((r2BandEnd != r2End) && (r2BandEnd->y1 == r2->y1))
	  {
	    r2BandEnd++;
	  }
	
	/*
	 * First handle the band that doesn't intersect, if any.
	 *
	 * Note that attention is restricted to one band in the
	 * non-intersecting region at once, so if a region has n
	 * bands between the current position and the next place it overlaps
	 * the other, this entire loop will be passed through n times.
	 */
	if (r1->y1 < r2->y1)
	  {
	    top = MAX (r1->y1,ybot);
	    bot = MIN (r1->y2,r2->y1);

	    if ((top != bot) && (nonOverlap1Fn != (void (*)())NULL))
	      {
		(* nonOverlap1Fn) (newReg, r1, r1BandEnd, top, bot);
	      }

	    ytop = r2->y1;
	  }
	else if (r2->y1 < r1->y1)
	  {
	    top = MAX (r2->y1,ybot);
	    bot = MIN (r2->y2,r1->y1);

	    if ((top != bot) && (nonOverlap2Fn != (void (*)())NULL))
	      {
		(* nonOverlap2Fn) (newReg, r2, r2BandEnd, top, bot);
	      }

	    ytop = r1->y1;
	  }
	else
	  {
	    ytop = r1->y1;
	  }

	/*
	 * If any rectangles got added to the region, try and coalesce them
	 * with rectangles from the previous band. Note we could just do
	 * this test in miCoalesce, but some machines incur a not
	 * inconsiderable cost for function calls, so...
	 */
	if (newReg->numRects != curBand)
	  {
	    prevBand = miCoalesce (newReg, prevBand, curBand);
	  }

	/*
	 * Now see if we've hit an intersecting band. The two bands only
	 * intersect if ybot > ytop
	 */
	ybot = MIN (r1->y2, r2->y2);
	curBand = newReg->numRects;
	if (ybot > ytop)
	  {
	    (* overlapFn) (newReg, r1, r1BandEnd, r2, r2BandEnd, ytop, ybot);

	  }
	
	if (newReg->numRects != curBand)
	  {
	    prevBand = miCoalesce (newReg, prevBand, curBand);
	  }

	/*
	 * If we've finished with a band (y2 == ybot) we skip forward
	 * in the region to the next band.
	 */
	if (r1->y2 == ybot)
	  {
	    r1 = r1BandEnd;
	  }
	if (r2->y2 == ybot)
	  {
	    r2 = r2BandEnd;
	  }
      } while ((r1 != r1End) && (r2 != r2End));

    /*
     * Deal with whichever region still has rectangles left.
     */
    curBand = newReg->numRects;
    if (r1 != r1End)
      {
	if (nonOverlap1Fn != (nonOverlapFunc )NULL)
	  {
	    do
	      {
		r1BandEnd = r1;
		while ((r1BandEnd < r1End) && (r1BandEnd->y1 == r1->y1))
		  {
		    r1BandEnd++;
		  }
		(* nonOverlap1Fn) (newReg, r1, r1BandEnd,
				     MAX (r1->y1,ybot), r1->y2);
		r1 = r1BandEnd;
	      } while (r1 != r1End);
	  }
      }
    else if ((r2 != r2End) && (nonOverlap2Fn != (nonOverlapFunc) NULL))
      {
	do
	  {
	    r2BandEnd = r2;
	    while ((r2BandEnd < r2End) && (r2BandEnd->y1 == r2->y1))
	      {
		r2BandEnd++;
	      }
	    (* nonOverlap2Fn) (newReg, r2, r2BandEnd,
			       MAX (r2->y1,ybot), r2->y2);
	    r2 = r2BandEnd;
	  } while (r2 != r2End);
      }

    if (newReg->numRects != curBand)
    {
      (void) miCoalesce (newReg, prevBand, curBand);
    }

    /*
     * A bit of cleanup. To keep regions from growing without bound,
     * we shrink the array of rectangles to match the new number of
     * rectangles in the region. This never goes to 0, however...
     *
     * Only do this stuff if the number of rectangles allocated is more than
     * twice the number of rectangles in the region (a simple optimization...).
     */
    if (newReg->numRects < (newReg->size >> 1))
      {
	if (REGION_NOT_EMPTY (newReg))
	  {
	    newReg->size = newReg->numRects;
	    newReg->rects = g_renew (GdkRegionBox, newReg->rects, newReg->size);
	  }
	else
	  {
	    /*
	     * No point in doing the extra work involved in an Xrealloc if
	     * the region is empty
	     */
	    newReg->size = 1;
	    g_free (newReg->rects);
1041
	    newReg->rects = &newReg->extents;
1042 1043
	  }
      }
1044 1045 1046

    if (oldRects != &newReg->extents)
      g_free (oldRects);
1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080
}


/*======================================================================
 *	    Region Union
 *====================================================================*/

/*-
 *-----------------------------------------------------------------------
 * miUnionNonO --
 *	Handle a non-overlapping band for the union operation. Just
 *	Adds the rectangles into the region. Doesn't have to check for
 *	subsumption or anything.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	pReg->numRects is incremented and the final rectangles overwritten
 *	with the rectangles we're passed.
 *
 *-----------------------------------------------------------------------
 */
static void
miUnionNonO (GdkRegion    *pReg,
	     GdkRegionBox *r,
	     GdkRegionBox *rEnd,
	     gint          y1,
	     gint          y2)
{
  GdkRegionBox *pNextRect;

  pNextRect = &pReg->rects[pReg->numRects];

1081
  g_assert(y1 < y2);
1082 1083 1084

  while (r != rEnd)
    {
1085
      g_assert(r->x1 < r->x2);
1086 1087 1088 1089 1090 1091 1092 1093
      MEMCHECK(pReg, pNextRect, pReg->rects);
      pNextRect->x1 = r->x1;
      pNextRect->y1 = y1;
      pNextRect->x2 = r->x2;
      pNextRect->y2 = y2;
      pReg->numRects += 1;
      pNextRect++;

1094
      g_assert(pReg->numRects<=pReg->size);
1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138
      r++;
    }
}


/*-
 *-----------------------------------------------------------------------
 * miUnionO --
 *	Handle an overlapping band for the union operation. Picks the
 *	left-most rectangle each time and merges it into the region.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	Rectangles are overwritten in pReg->rects and pReg->numRects will
 *	be changed.
 *
 *-----------------------------------------------------------------------
 */

/* static void*/
static void
miUnionO (GdkRegion *pReg,
	  GdkRegionBox *r1,
	  GdkRegionBox *r1End,
	  GdkRegionBox *r2,
	  GdkRegionBox *r2End,
	  gint          y1,
	  gint          y2)
{
  GdkRegionBox *	pNextRect;
    
  pNextRect = &pReg->rects[pReg->numRects];

#define MERGERECT(r) 					\
    if ((pReg->numRects != 0) &&  			\
	(pNextRect[-1].y1 == y1) &&  			\
	(pNextRect[-1].y2 == y2) &&  			\
	(pNextRect[-1].x2 >= r->x1))  			\
      {  						\
	if (pNextRect[-1].x2 < r->x2)  			\
	  {  						\
	    pNextRect[-1].x2 = r->x2;  			\
1139
	    g_assert(pNextRect[-1].x1<pNextRect[-1].x2); 	\
1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151
	  }  						\
      }  						\
    else  						\
      {  						\
	MEMCHECK(pReg, pNextRect, pReg->rects); 	\
	pNextRect->y1 = y1;  				\
	pNextRect->y2 = y2;  				\
	pNextRect->x1 = r->x1;  			\
	pNextRect->x2 = r->x2;  			\
	pReg->numRects += 1;  				\
        pNextRect += 1;  				\
      }  						\
1152
    g_assert(pReg->numRects<=pReg->size);			\
1153 1154
    r++;
    
1155
    g_assert (y1<y2);
1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180
    while ((r1 != r1End) && (r2 != r2End))
    {
	if (r1->x1 < r2->x1)
	{
	    MERGERECT(r1);
	}
	else
	{
	    MERGERECT(r2);
	}
    }
    
    if (r1 != r1End)
    {
	do
	{
	    MERGERECT(r1);
	} while (r1 != r1End);
    }
    else while (r2 != r2End)
    {
	MERGERECT(r2);
    }
}

1181 1182 1183 1184 1185 1186 1187 1188 1189
/**
 * gdk_region_union:
 * @source1:  a #GdkRegion
 * @source2: a #GdkRegion 
 * 
 * Sets the area of @source1 to the union of the areas of @source1 and
 * @source2. The resulting area is the set of pixels contained in
 * either @source1 or @source2.
 **/
1190
void
1191 1192
gdk_region_union (GdkRegion *source1,
		  GdkRegion *source2)
1193
{
1194 1195
  g_return_if_fail (source1 != NULL);
  g_return_if_fail (source2 != NULL);
1196
  
1197 1198
  /*  checks all the simple cases */

1199 1200 1201 1202
  /*
   * source1 and source2 are the same or source2 is empty
   */
  if ((source1 == source2) || (!(source2->numRects)))
1203 1204
    return;

1205 1206 1207 1208
  /* 
   * source1 is empty
   */
  if (!(source1->numRects))
1209
    {
1210
      miRegionCopy (source1, source2);
1211 1212
      return;
    }
1213
  
1214
  /*
1215 1216 1217 1218 1219 1220 1221
   * source1 completely subsumes source2
   */
  if ((source1->numRects == 1) && 
      (source1->extents.x1 <= source2->extents.x1) &&
      (source1->extents.y1 <= source2->extents.y1) &&
      (source1->extents.x2 >= source2->extents.x2) &&
      (source1->extents.y2 >= source2->extents.y2))
1222 1223 1224
    return;

  /*
1225 1226 1227 1228 1229 1230 1231
   * source2 completely subsumes source1
   */
  if ((source2->numRects == 1) && 
      (source2->extents.x1 <= source1->extents.x1) &&
      (source2->extents.y1 <= source1->extents.y1) &&
      (source2->extents.x2 >= source1->extents.x2) &&
      (source2->extents.y2 >= source1->extents.y2))
1232
    {
1233
      miRegionCopy(source1, source2);
1234 1235 1236
      return;
    }

1237
  miRegionOp (source1, source1, source2, miUnionO, 
1238 1239
	      miUnionNonO, miUnionNonO);

1240 1241 1242 1243
  source1->extents.x1 = MIN (source1->extents.x1, source2->extents.x1);
  source1->extents.y1 = MIN (source1->extents.y1, source2->extents.y1);
  source1->extents.x2 = MAX (source1->extents.x2, source2->extents.x2);
  source1->extents.y2 = MAX (source1->extents.y2, source2->extents.y2);
1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276
}


/*======================================================================
 * 	    	  Region Subtraction
 *====================================================================*/

/*-
 *-----------------------------------------------------------------------
 * miSubtractNonO --
 *	Deal with non-overlapping band for subtraction. Any parts from
 *	region 2 we discard. Anything from region 1 we add to the region.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	pReg may be affected.
 *
 *-----------------------------------------------------------------------
 */
/* static void*/
static void
miSubtractNonO1 (GdkRegion    *pReg,
		 GdkRegionBox *r,
		 GdkRegionBox *rEnd,
		 gint          y1,
		 gint          y2)
{
  GdkRegionBox *	pNextRect;
	
  pNextRect = &pReg->rects[pReg->numRects];
	
1277
  g_assert(y1<y2);
1278 1279 1280

  while (r != rEnd)
    {
1281
      g_assert (r->x1<r->x2);
1282 1283 1284 1285 1286 1287 1288 1289
      MEMCHECK (pReg, pNextRect, pReg->rects);
      pNextRect->x1 = r->x1;
      pNextRect->y1 = y1;
      pNextRect->x2 = r->x2;
      pNextRect->y2 = y2;
      pReg->numRects += 1;
      pNextRect++;

1290
      g_assert (pReg->numRects <= pReg->size);
1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324

      r++;
    }
}

/*-
 *-----------------------------------------------------------------------
 * miSubtractO --
 *	Overlapping band subtraction. x1 is the left-most point not yet
 *	checked.
 *
 * Results:
 *	None.
 *
 * Side Effects:
 *	pReg may have rectangles added to it.
 *
 *-----------------------------------------------------------------------
 */
/* static void*/
static void
miSubtractO (GdkRegion    *pReg,
	     GdkRegionBox *r1,
	     GdkRegionBox *r1End,
	     GdkRegionBox *r2,
	     GdkRegionBox *r2End,
	     gint          y1,
	     gint          y2)
{
  GdkRegionBox *	pNextRect;
  int  	x1;
    
  x1 = r1->x1;
    
1325
  g_assert(y1<y2);
1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367
  pNextRect = &pReg->rects[pReg->numRects];

  while ((r1 != r1End) && (r2 != r2End))
    {
      if (r2->x2 <= x1)
	{
	  /*
	   * Subtrahend missed the boat: go to next subtrahend.
	   */
	  r2++;
	}
      else if (r2->x1 <= x1)
	{
	  /*
	   * Subtrahend preceeds minuend: nuke left edge of minuend.
	   */
	  x1 = r2->x2;
	  if (x1 >= r1->x2)
	    {
	      /*
	       * Minuend completely covered: advance to next minuend and
	       * reset left fence to edge of new minuend.
	       */
	      r1++;
	      if (r1 != r1End)
		x1 = r1->x1;
	    }
	  else
	    {
	      /*
	       * Subtrahend now used up since it doesn't extend beyond
	       * minuend
	       */
	      r2++;
	    }
	}
      else if (r2->x1 < r1->x2)
	{
	  /*
	   * Left part of subtrahend covers part of minuend: add uncovered
	   * part of minuend to region and skip to next subtrahend.
	   */
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	  g_assert(x1<r2->x1);
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	  MEMCHECK(pReg, pNextRect, pReg->rects);
	  pNextRect->x1 = x1;
	  pNextRect->y1 = y1;
	  pNextRect->x2 = r2->x1;
	  pNextRect->y2 = y2;
	  pReg->numRects += 1;
	  pNextRect++;

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	  g_assert(pReg->numRects<=pReg->size);
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	  x1 = r2->x2;
	  if (x1 >= r1->x2)
	    {
	      /*
	       * Minuend used up: advance to new...
	       */
	      r1++;
	      if (r1 != r1End)
		x1 = r1->x1;
	    }
	  else
	    {
	      /*
	       * Subtrahend used up
	       */
	      r2++;
	    }
	}
      else
	{
	  /*
	   * Minuend used up: add any remaining piece before advancing.
	   */
	  if (r1->x2 > x1)
	    {
	      MEMCHECK(pReg, pNextRect, pReg->rects);
	      pNextRect->x1 = x1;
	      pNextRect->y1 = y1;
	      pNextRect->x2 = r1->x2;
	      pNextRect->y2 = y2;
	      pReg->numRects += 1;
	      pNextRect++;
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	      g_assert(pReg->numRects<=pReg->size);
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	    }
	  r1++;
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	  if (r1 != r1End)
	    x1 = r1->x1;
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	}
    }

  /*
     * Add remaining minuend rectangles to region.
     */
  while (r1 != r1End)
    {
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      g_assert(x1<r1->x2);
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      MEMCHECK(pReg, pNextRect, pReg->rects);
      pNextRect->x1 = x1;
      pNextRect->y1 = y1;
      pNextRect->x2 = r1->x2;
      pNextRect->y2 = y2;
      pReg->numRects += 1;
      pNextRect++;

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      g_assert(pReg->numRects<=pReg->size);
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      r1++;
      if (r1 != r1End)
	{
	  x1 = r1->x1;
	}
    }
}

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/**
 * gdk_region_subtract:
 * @source1: a #GdkRegion
 * @source2: another #GdkRegion
 *
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 * Subtracts the area of @source2 from the area @source1. The resulting
 * area is the set of pixels contained in @source1 but not in @source2.
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 **/
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void
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gdk_region_subtract (GdkRegion *source1,
		     GdkRegion *source2)
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{
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  g_return_if_fail (source1 != NULL);
  g_return_if_fail (source2 != NULL);
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  /* check for trivial reject */
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  if ((!(source1->numRects)) || (!(source2->numRects)) ||
      (!EXTENTCHECK(&source1->extents, &source2->extents)))
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    return;
 
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  miRegionOp (source1, source1, source2, miSubtractO,
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	      miSubtractNonO1, (nonOverlapFunc) NULL);

  /*
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   * Can't alter source1's extents before we call miRegionOp because miRegionOp
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   * depends on the extents of those regions being the unaltered. Besides, this
   * way there's no checking against rectangles that will be nuked
   * due to coalescing, so we have to examine fewer rectangles.
   */
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  miSetExtents (source1);
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}

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/**
 * gdk_region_xor:
 * @source1: a #GdkRegion
 * @source2: another #GdkRegion
 *
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 * Sets the area of @source1 to the exclusive-OR of the areas of @source1
 * and @source2. The resulting area is the set of pixels contained in one
 * or the other of the two sources but not in both.
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 **/
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void
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gdk_region_xor (GdkRegion *source1,
		GdkRegion *source2)
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{
  GdkRegion *trb;

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  g_return_if_fail (source1 != NULL);
  g_return_if_fail (source2 != NULL);
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  trb = gdk_region_copy (source2);
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  gdk_region_subtract (trb, source1);
  gdk_region_subtract (source1, source2);
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  gdk_region_union (source1, trb);
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  gdk_region_destroy (trb);
}

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/**
 * gdk_region_empty: 
 * @region: a #GdkRegion
 *
 * Returns %TRUE if the #GdkRegion is empty.
 *
 * Returns: %TRUE if @region is empty.
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 */
gboolean
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gdk_region_empty (GdkRegion *region)
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{
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  g_return_val_if_fail (region != NULL, FALSE);
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  if (region->numRects == 0)
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    return TRUE;
  else
    return FALSE;
}

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/**
 * gdk_region_equal:
 * @region1: a #GdkRegion
 * @region2: a #GdkRegion
 *
 * Returns %TRUE if the two regions are the same.
 *
 * Returns: %TRUE if @region1 and @region2 are equal.
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 */
gboolean
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gdk_region_equal (GdkRegion *region1,
		  GdkRegion *region2)
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{
  int i;

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  g_return_val_if_fail (region1 != NULL, FALSE);
  g_return_val_if_fail (region2 != NULL, FALSE);
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  if (region1->numRects != region2->numRects) return FALSE;<