PostGIS  3.2.2dev-r@@SVN_REVISION@@

◆ point_in_cone()

static int point_in_cone ( const POINT3D A1,
const POINT3D A2,
const POINT3D P 
)
static

Utility function for checking if P is within the cone defined by A1/A2.

Definition at line 3433 of file lwgeodetic.c.

3434 {
3435  POINT3D AC; /* Center point of A1/A2 */
3436  double min_similarity, similarity;
3437 
3438  /* Boundary case */
3439  if (point3d_equals(A1, P) || point3d_equals(A2, P))
3440  return LW_TRUE;
3441 
3442  /* The normalized sum bisects the angle between start and end. */
3443  vector_sum(A1, A2, &AC);
3444  normalize(&AC);
3445 
3446  /* The projection of start onto the center defines the minimum similarity */
3447  min_similarity = dot_product(A1, &AC);
3448 
3449  /* If the edge is sufficiently curved, use the dot product test */
3450  if (fabs(1.0 - min_similarity) > 1e-10)
3451  {
3452  /* The projection of candidate p onto the center */
3453  similarity = dot_product(P, &AC);
3454 
3455  /* If the projection of the candidate is larger than */
3456  /* the projection of the start point, the candidate */
3457  /* must be closer to the center than the start, so */
3458  /* therefor inside the cone */
3459  if (similarity > min_similarity)
3460  {
3461  return LW_TRUE;
3462  }
3463  else
3464  {
3465  return LW_FALSE;
3466  }
3467  }
3468  else
3469  {
3470  /* Where the edge is very narrow, the dot product test */
3471  /* fails, but we can use the almost-planar nature of the */
3472  /* problem space then to test if the vector from the */
3473  /* candidate to the start point in a different direction */
3474  /* to the vector from candidate to end point */
3475  /* If so, then candidate is between start and end */
3476  POINT3D PA1, PA2;
3477  vector_difference(P, A1, &PA1);
3478  vector_difference(P, A2, &PA2);
3479  normalize(&PA1);
3480  normalize(&PA2);
3481  if (dot_product(&PA1, &PA2) < 0.0)
3482  {
3483  return LW_TRUE;
3484  }
3485  else
3486  {
3487  return LW_FALSE;
3488  }
3489  }
3490  return LW_FALSE;
3491 }
LW_FALSE
#define LW_FALSE
Definition: liblwgeom.h:108
LW_TRUE
#define LW_TRUE
Return types for functions with status returns.
Definition: liblwgeom.h:107
normalize
void normalize(POINT3D *p)
Normalize to a unit vector.
Definition: lwgeodetic.c:615
vector_difference
static void vector_difference(const POINT3D *a, const POINT3D *b, POINT3D *n)
Calculate the difference of two vectors.
Definition: lwgeodetic.c:476
dot_product
static double dot_product(const POINT3D *p1, const POINT3D *p2)
Convert cartesian coordinates on unit sphere to lon/lat coordinates static void cart2ll(const POINT3D...
Definition: lwgeodetic.c:446
vector_sum
void vector_sum(const POINT3D *a, const POINT3D *b, POINT3D *n)
Calculate the sum of two vectors.
Definition: lwgeodetic.c:465
point3d_equals
static int point3d_equals(const POINT3D *p1, const POINT3D *p2)
Utility function for ptarray_contains_point_sphere()
Definition: lwgeodetic.c:42

References dot_product(), LW_FALSE, LW_TRUE, normalize(), point3d_equals(), vector_difference(), and vector_sum().

Referenced by edge_intersects().

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