PostGIS  3.7.0dev-r@@SVN_REVISION@@

◆ ptarray_contains_point_sphere()

int ptarray_contains_point_sphere ( const POINTARRAY pa,
const POINT2D pt_outside,
const POINT2D pt_to_test 
)

This routine returns LW_TRUE if the stabline joining the pt_outside and pt_to_test crosses the ring an odd number of times, or if the pt_to_test is on the ring boundary itself, returning LW_FALSE otherwise.

The pt_outside must be guaranteed to be outside the ring (use the geography_pt_outside() function to derive one in postgis, or the gbox_pt_outside() function if you don't mind burning CPU cycles building a gbox first).

Definition at line 3502 of file lwgeodetic.c.

3503 {
3504  POINT3D S1, S2; /* Stab line end points */
3505  POINT3D E1, E2; /* Edge end points (3-space) */
3506  POINT2D p; /* Edge end points (lon/lat) */
3507  uint32_t count = 0, i, inter;
3508 
3509  /* Null input, not enough points for a ring? You ain't closed! */
3510  if ( ! pa || pa->npoints < 4 )
3511  return LW_FALSE;
3512 
3513  /* Set up our stab line */
3514  ll2cart(pt_to_test, &S1);
3515  ll2cart(pt_outside, &S2);
3516 
3517  /* Initialize first point */
3518  getPoint2d_p(pa, 0, &p);
3519  ll2cart(&p, &E1);
3520 
3521  /* Walk every edge and see if the stab line hits it */
3522  for ( i = 1; i < pa->npoints; i++ )
3523  {
3524  LWDEBUGF(4, "testing edge (%d)", i);
3525  LWDEBUGF(4, " start point == POINT(%.12g %.12g)", p.x, p.y);
3526 
3527  /* Read next point. */
3528  getPoint2d_p(pa, i, &p);
3529  ll2cart(&p, &E2);
3530 
3531  /* Skip over too-short edges. */
3532  if ( point3d_equals(&E1, &E2) )
3533  {
3534  continue;
3535  }
3536 
3537  /* Our test point is on an edge end! Point is "in ring" by our definition */
3538  if ( point3d_equals(&S1, &E1) )
3539  {
3540  return LW_TRUE;
3541  }
3542 
3543  /* Calculate relationship between stab line and edge */
3544  inter = edge_intersects(&S1, &S2, &E1, &E2);
3545 
3546  /* We have some kind of interaction... */
3547  if ( inter & PIR_INTERSECTS )
3548  {
3549  /* If the stabline is touching the edge, that implies the test point */
3550  /* is on the edge, so we're done, the point is in (on) the ring. */
3551  if ( (inter & PIR_A_TOUCH_RIGHT) || (inter & PIR_A_TOUCH_LEFT) )
3552  {
3553  return LW_TRUE;
3554  }
3555 
3556  /* It's a touching interaction, disregard all the left-side ones. */
3557  /* It's a co-linear intersection, ignore those. */
3558  if ( inter & PIR_B_TOUCH_RIGHT || inter & PIR_COLINEAR )
3559  {
3560  /* Do nothing, to avoid double counts. */
3561  LWDEBUGF(4," edge (%d) crossed, count == %d, disregarding to avoid double count", i, count);
3562  }
3563  else
3564  {
3565  /* Increment crossingn count. */
3566  count++;
3567  LWDEBUGF(4," edge (%d) crossed, count == %d", i, count);
3568  }
3569  }
3570  else
3571  {
3572  LWDEBUGF(4," edge (%d) did not cross", i);
3573  }
3574 
3575  /* Increment to next edge */
3576  E1 = E2;
3577  }
3578 
3579  LWDEBUGF(4,"final count == %d", count);
3580 
3581  /* An odd number of crossings implies containment! */
3582  if ( count % 2 )
3583  {
3584  return LW_TRUE;
3585  }
3586 
3587  return LW_FALSE;
3588 }
LW_FALSE
#define LW_FALSE
Definition: liblwgeom.h:94
getPoint2d_p
int getPoint2d_p(const POINTARRAY *pa, uint32_t n, POINT2D *point)
Definition: lwgeom_api.c:342
LW_TRUE
#define LW_TRUE
Return types for functions with status returns.
Definition: liblwgeom.h:93
ll2cart
void ll2cart(const POINT2D *g, POINT3D *p)
Convert lon/lat coordinates to cartesian coordinates on unit sphere.
Definition: lwgeodetic.c:423
edge_intersects
uint32_t edge_intersects(const POINT3D *A1, const POINT3D *A2, const POINT3D *B1, const POINT3D *B2)
Returns non-zero if edges A and B interact.
Definition: lwgeodetic.c:3389
point3d_equals
static int point3d_equals(const POINT3D *p1, const POINT3D *p2)
Utility function for ptarray_contains_point_sphere()
Definition: lwgeodetic.c:42
PIR_A_TOUCH_LEFT
#define PIR_A_TOUCH_LEFT
Definition: lwgeodetic.h:91
PIR_COLINEAR
#define PIR_COLINEAR
Definition: lwgeodetic.h:89
PIR_INTERSECTS
#define PIR_INTERSECTS
Definition: lwgeodetic.h:88
PIR_A_TOUCH_RIGHT
#define PIR_A_TOUCH_RIGHT
Definition: lwgeodetic.h:90
PIR_B_TOUCH_RIGHT
#define PIR_B_TOUCH_RIGHT
Definition: lwgeodetic.h:92
LWDEBUGF
#define LWDEBUGF(level, msg,...)
Definition: lwgeom_log.h:106
genraster.count
int count
Definition: genraster.py:57
POINT2D::y
double y
Definition: liblwgeom.h:390
POINT2D::x
double x
Definition: liblwgeom.h:390
POINTARRAY::npoints
uint32_t npoints
Definition: liblwgeom.h:427

References genraster::count, edge_intersects(), getPoint2d_p(), ll2cart(), LW_FALSE, LW_TRUE, LWDEBUGF, POINTARRAY::npoints, PIR_A_TOUCH_LEFT, PIR_A_TOUCH_RIGHT, PIR_B_TOUCH_RIGHT, PIR_COLINEAR, PIR_INTERSECTS, point3d_equals(), POINT2D::x, and POINT2D::y.

Referenced by lwpoly_covers_point2d(), test_ptarray_contains_point_sphere(), and test_ptarray_contains_point_sphere_iowa().

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