PostGIS  3.0.6dev-r@@SVN_REVISION@@

◆ lw_dist3d_ptarray_poly()

int lw_dist3d_ptarray_poly ( POINTARRAY pa,
LWPOLY poly,
PLANE3D plane,
DISTPTS3D dl 
)

Computes pointarray to polygon distance.

Definition at line 1293 of file measures3d.c.

1294 {
1295  uint32_t i, j, k;
1296  double f, s1, s2;
1297  VECTOR3D projp1_projp2;
1298  POINT3DZ p1, p2, projp1, projp2, intersectionp;
1299 
1300  getPoint3dz_p(pa, 0, &p1);
1301 
1302  /* the sign of s1 tells us on which side of the plane the point is. */
1303  s1 = project_point_on_plane(&p1, plane, &projp1);
1304  lw_dist3d_pt_poly(&p1, poly, plane, &projp1, dl);
1305  if ((s1 == 0.0) && (dl->distance < dl->tolerance))
1306  return LW_TRUE;
1307 
1308  for (i = 1; i < pa->npoints; i++)
1309  {
1310  int intersects;
1311  getPoint3dz_p(pa, i, &p2);
1312  s2 = project_point_on_plane(&p2, plane, &projp2);
1313  lw_dist3d_pt_poly(&p2, poly, plane, &projp2, dl);
1314  if ((s2 == 0.0) && (dl->distance < dl->tolerance))
1315  return LW_TRUE;
1316 
1317  /* If s1 and s2 has different signs that means they are on different sides of the plane of the polygon.
1318  * That means that the edge between the points crosses the plane and might intersect with the polygon */
1319  if ((s1 * s2) < 0)
1320  {
1321  /* The size of s1 and s2 is the distance from the point to the plane. */
1322  f = fabs(s1) / (fabs(s1) + fabs(s2));
1323  get_3dvector_from_points(&projp1, &projp2, &projp1_projp2);
1324 
1325  /* Get the point where the line segment crosses the plane */
1326  intersectionp.x = projp1.x + f * projp1_projp2.x;
1327  intersectionp.y = projp1.y + f * projp1_projp2.y;
1328  intersectionp.z = projp1.z + f * projp1_projp2.z;
1329 
1330  /* We set intersects to true until the opposite is proved */
1331  intersects = LW_TRUE;
1332 
1333  if (pt_in_ring_3d(&intersectionp, poly->rings[0], plane)) /*Inside outer ring*/
1334  {
1335  for (k = 1; k < poly->nrings; k++)
1336  {
1337  /* Inside a hole, so no intersection with the polygon*/
1338  if (pt_in_ring_3d(&intersectionp, poly->rings[k], plane))
1339  {
1340  intersects = LW_FALSE;
1341  break;
1342  }
1343  }
1344  if (intersects)
1345  {
1346  dl->distance = 0.0;
1347  dl->p1.x = intersectionp.x;
1348  dl->p1.y = intersectionp.y;
1349  dl->p1.z = intersectionp.z;
1350 
1351  dl->p2.x = intersectionp.x;
1352  dl->p2.y = intersectionp.y;
1353  dl->p2.z = intersectionp.z;
1354  return LW_TRUE;
1355  }
1356  }
1357  }
1358 
1359  projp1 = projp2;
1360  s1 = s2;
1361  p1 = p2;
1362  }
1363 
1364  /* check our pointarray against boundary and inner boundaries of the polygon */
1365  for (j = 0; j < poly->nrings; j++)
1366  lw_dist3d_ptarray_ptarray(pa, poly->rings[j], dl);
1367 
1368  return LW_TRUE;
1369 }
LW_FALSE
#define LW_FALSE
Definition: liblwgeom.h:108
getPoint3dz_p
int getPoint3dz_p(const POINTARRAY *pa, uint32_t n, POINT3DZ *point)
Definition: lwgeom_api.c:215
LW_TRUE
#define LW_TRUE
Return types for functions with status returns.
Definition: liblwgeom.h:107
pt_in_ring_3d
int pt_in_ring_3d(const POINT3DZ *p, const POINTARRAY *ring, PLANE3D *plane)
pt_in_ring_3d(): crossing number test for a point in a polygon input: p = a point,...
Definition: measures3d.c:1567
get_3dvector_from_points
static int get_3dvector_from_points(POINT3DZ *p1, POINT3DZ *p2, VECTOR3D *v)
Definition: measures3d.c:34
lw_dist3d_pt_poly
int lw_dist3d_pt_poly(POINT3DZ *p, LWPOLY *poly, PLANE3D *plane, POINT3DZ *projp, DISTPTS3D *dl)
Checking if the point projected on the plane of the polygon actually is inside that polygon.
Definition: measures3d.c:1251
project_point_on_plane
double project_point_on_plane(POINT3DZ *p, PLANE3D *pl, POINT3DZ *p0)
Finds a point on a plane from where the original point is perpendicular to the plane.
Definition: measures3d.c:1524
lw_dist3d_ptarray_ptarray
int lw_dist3d_ptarray_ptarray(POINTARRAY *l1, POINTARRAY *l2, DISTPTS3D *dl)
Finds all combinations of segments between two pointarrays.
Definition: measures3d.c:1088
DISTPTS3D::p2
POINT3DZ p2
Definition: measures3d.h:42
DISTPTS3D::p1
POINT3DZ p1
Definition: measures3d.h:41
DISTPTS3D::distance
double distance
Definition: measures3d.h:40
DISTPTS3D::tolerance
double tolerance
Definition: measures3d.h:47
LWPOLY::rings
POINTARRAY ** rings
Definition: liblwgeom.h:505
LWPOLY::nrings
uint32_t nrings
Definition: liblwgeom.h:510
POINT3DZ::z
double z
Definition: liblwgeom.h:382
POINT3DZ::x
double x
Definition: liblwgeom.h:382
POINT3DZ::y
double y
Definition: liblwgeom.h:382
POINTARRAY::npoints
uint32_t npoints
Definition: liblwgeom.h:413
VECTOR3D::z
double z
Definition: measures3d.h:52
VECTOR3D::x
double x
Definition: measures3d.h:52
VECTOR3D::y
double y
Definition: measures3d.h:52

References DISTPTS3D::distance, get_3dvector_from_points(), getPoint3dz_p(), lw_dist3d_pt_poly(), lw_dist3d_ptarray_ptarray(), LW_FALSE, LW_TRUE, POINTARRAY::npoints, LWPOLY::nrings, DISTPTS3D::p1, DISTPTS3D::p2, project_point_on_plane(), pt_in_ring_3d(), LWPOLY::rings, DISTPTS3D::tolerance, POINT3DZ::x, VECTOR3D::x, POINT3DZ::y, VECTOR3D::y, POINT3DZ::z, and VECTOR3D::z.

Referenced by lw_dist3d_line_poly(), lw_dist3d_poly_poly(), and lw_dist3d_poly_tri().

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