PostGIS 3.0.6dev-r@@SVN_REVISION@@
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◆ edge_intersection()

int edge_intersection ( const GEOGRAPHIC_EDGE e1,
const GEOGRAPHIC_EDGE e2,
GEOGRAPHIC_POINT g 
)

Returns true if an intersection can be calculated, and places it in *g.

Returns false otherwise.

Definition at line 1127 of file lwgeodetic.c.

1128{
1129 POINT3D ea, eb, v;
1130 LWDEBUGF(4, "e1 start(%.20g %.20g) end(%.20g %.20g)", e1->start.lat, e1->start.lon, e1->end.lat, e1->end.lon);
1131 LWDEBUGF(4, "e2 start(%.20g %.20g) end(%.20g %.20g)", e2->start.lat, e2->start.lon, e2->end.lat, e2->end.lon);
1132
1133 LWDEBUGF(4, "e1 start(%.20g %.20g) end(%.20g %.20g)", rad2deg(e1->start.lon), rad2deg(e1->start.lat), rad2deg(e1->end.lon), rad2deg(e1->end.lat));
1134 LWDEBUGF(4, "e2 start(%.20g %.20g) end(%.20g %.20g)", rad2deg(e2->start.lon), rad2deg(e2->start.lat), rad2deg(e2->end.lon), rad2deg(e2->end.lat));
1135
1136 if ( geographic_point_equals(&(e1->start), &(e2->start)) )
1137 {
1138 *g = e1->start;
1139 return LW_TRUE;
1140 }
1141 if ( geographic_point_equals(&(e1->end), &(e2->end)) )
1142 {
1143 *g = e1->end;
1144 return LW_TRUE;
1145 }
1146 if ( geographic_point_equals(&(e1->end), &(e2->start)) )
1147 {
1148 *g = e1->end;
1149 return LW_TRUE;
1150 }
1151 if ( geographic_point_equals(&(e1->start), &(e2->end)) )
1152 {
1153 *g = e1->start;
1154 return LW_TRUE;
1155 }
1156
1157 robust_cross_product(&(e1->start), &(e1->end), &ea);
1158 normalize(&ea);
1159 robust_cross_product(&(e2->start), &(e2->end), &eb);
1160 normalize(&eb);
1161 LWDEBUGF(4, "e1 cross product == POINT(%.12g %.12g %.12g)", ea.x, ea.y, ea.z);
1162 LWDEBUGF(4, "e2 cross product == POINT(%.12g %.12g %.12g)", eb.x, eb.y, eb.z);
1163 LWDEBUGF(4, "fabs(dot_product(ea, eb)) == %.14g", fabs(dot_product(&ea, &eb)));
1164 if ( FP_EQUALS(fabs(dot_product(&ea, &eb)), 1.0) )
1165 {
1166 LWDEBUGF(4, "parallel edges found! dot_product = %.12g", dot_product(&ea, &eb));
1167 /* Parallel (maybe equal) edges! */
1168 /* Hack alert, only returning ONE end of the edge right now, most do better later. */
1169 /* Hack alert #2, returning a value of 2 to indicate a co-linear crossing event. */
1170 if ( edge_contains_point(e1, &(e2->start)) )
1171 {
1172 *g = e2->start;
1173 return 2;
1174 }
1175 if ( edge_contains_point(e1, &(e2->end)) )
1176 {
1177 *g = e2->end;
1178 return 2;
1179 }
1180 if ( edge_contains_point(e2, &(e1->start)) )
1181 {
1182 *g = e1->start;
1183 return 2;
1184 }
1185 if ( edge_contains_point(e2, &(e1->end)) )
1186 {
1187 *g = e1->end;
1188 return 2;
1189 }
1190 }
1191 unit_normal(&ea, &eb, &v);
1192 LWDEBUGF(4, "v == POINT(%.12g %.12g %.12g)", v.x, v.y, v.z);
1193 g->lat = atan2(v.z, sqrt(v.x * v.x + v.y * v.y));
1194 g->lon = atan2(v.y, v.x);
1195 LWDEBUGF(4, "g == GPOINT(%.12g %.12g)", g->lat, g->lon);
1196 LWDEBUGF(4, "g == POINT(%.12g %.12g)", rad2deg(g->lon), rad2deg(g->lat));
1197 if ( edge_contains_point(e1, g) && edge_contains_point(e2, g) )
1198 {
1199 return LW_TRUE;
1200 }
1201 else
1202 {
1203 LWDEBUG(4, "flipping point to other side of sphere");
1204 g->lat = -1.0 * g->lat;
1205 g->lon = g->lon + M_PI;
1206 if ( g->lon > M_PI )
1207 {
1208 g->lon = -1.0 * (2.0 * M_PI - g->lon);
1209 }
1210 if ( edge_contains_point(e1, g) && edge_contains_point(e2, g) )
1211 {
1212 return LW_TRUE;
1213 }
1214 }
1215 return LW_FALSE;
1216}
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
FP_EQUALS
#define FP_EQUALS(A, B)
Definition liblwgeom_internal.h:59
normalize
void normalize(POINT3D *p)
Normalize to a unit vector.
Definition lwgeodetic.c:615
robust_cross_product
void robust_cross_product(const GEOGRAPHIC_POINT *p, const GEOGRAPHIC_POINT *q, POINT3D *a)
Computes the cross product of two vectors using their lat, lng representations.
Definition lwgeodetic.c:634
unit_normal
void unit_normal(const POINT3D *P1, const POINT3D *P2, POINT3D *normal)
Calculates the unit normal to two vectors, trying to avoid problems with over-narrow or over-wide cas...
Definition lwgeodetic.c:541
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
edge_contains_point
int edge_contains_point(const GEOGRAPHIC_EDGE *e, const GEOGRAPHIC_POINT *p)
Returns true if the point p is on the minor edge defined by the end points of e.
Definition lwgeodetic.c:1034
geographic_point_equals
int geographic_point_equals(const GEOGRAPHIC_POINT *g1, const GEOGRAPHIC_POINT *g2)
Definition lwgeodetic.c:170
rad2deg
#define rad2deg(r)
Definition lwgeodetic.h:81
LWDEBUG
#define LWDEBUG(level, msg)
Definition lwgeom_log.h:83
LWDEBUGF
#define LWDEBUGF(level, msg,...)
Definition lwgeom_log.h:88
GEOGRAPHIC_EDGE::start
GEOGRAPHIC_POINT start
Definition lwgeodetic.h:64
GEOGRAPHIC_EDGE::end
GEOGRAPHIC_POINT end
Definition lwgeodetic.h:65
GEOGRAPHIC_POINT::lat
double lat
Definition lwgeodetic.h:56
GEOGRAPHIC_POINT::lon
double lon
Definition lwgeodetic.h:55
POINT3D::z
double z
Definition liblwgeom.h:388
POINT3D::x
double x
Definition liblwgeom.h:388
POINT3D::y
double y
Definition liblwgeom.h:388

References dot_product(), edge_contains_point(), GEOGRAPHIC_EDGE::end, FP_EQUALS, geographic_point_equals(), GEOGRAPHIC_POINT::lat, GEOGRAPHIC_POINT::lon, LW_FALSE, LW_TRUE, LWDEBUG, LWDEBUGF, normalize(), rad2deg, robust_cross_product(), GEOGRAPHIC_EDGE::start, unit_normal(), POINT3D::x, POINT3D::y, and POINT3D::z.

Referenced by circ_tree_distance_tree_internal(), and test_edge_intersection().

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