PostGIS  3.3.9dev-r@@SVN_REVISION@@

◆ containsproperly()

Datum containsproperly ( PG_FUNCTION_ARGS  )

Definition at line 1886 of file postgis/lwgeom_geos.c.

1887 {
1888  SHARED_GSERIALIZED *shared_geom1 = ToastCacheGetGeometry(fcinfo, 0);
1889  SHARED_GSERIALIZED *shared_geom2 = ToastCacheGetGeometry(fcinfo, 1);
1890  const GSERIALIZED *geom1 = shared_gserialized_get(shared_geom1);
1891  const GSERIALIZED *geom2 = shared_gserialized_get(shared_geom2);
1892  char result;
1893  GBOX box1, box2;
1894  PrepGeomCache * prep_cache;
1895 
1896  gserialized_error_if_srid_mismatch(geom1, geom2, __func__);
1897 
1898  /* A.ContainsProperly(Empty) == FALSE */
1899  if ( gserialized_is_empty(geom1) || gserialized_is_empty(geom2) )
1900  PG_RETURN_BOOL(false);
1901 
1902  /*
1903  * short-circuit: if geom2 bounding box is not completely inside
1904  * geom1 bounding box we can return FALSE.
1905  */
1906  if ( gserialized_get_gbox_p(geom1, &box1) &&
1907  gserialized_get_gbox_p(geom2, &box2) )
1908  {
1909  if ( ! gbox_contains_2d(&box1, &box2) )
1910  PG_RETURN_BOOL(false);
1911  }
1912 
1913  initGEOS(lwpgnotice, lwgeom_geos_error);
1914 
1915  prep_cache = GetPrepGeomCache(fcinfo, shared_geom1, 0);
1916 
1917  if ( prep_cache && prep_cache->prepared_geom && prep_cache->gcache.argnum == 1 )
1918  {
1919  GEOSGeometry *g = POSTGIS2GEOS(geom2);
1920  if (!g) HANDLE_GEOS_ERROR("First argument geometry could not be converted to GEOS");
1921  result = GEOSPreparedContainsProperly( prep_cache->prepared_geom, g);
1922  GEOSGeom_destroy(g);
1923  }
1924  else
1925  {
1926  GEOSGeometry *g2;
1927  GEOSGeometry *g1;
1928 
1929  g1 = POSTGIS2GEOS(geom1);
1930  if (!g1) HANDLE_GEOS_ERROR("First argument geometry could not be converted to GEOS");
1931  g2 = POSTGIS2GEOS(geom2);
1932  if (!g2)
1933  {
1934  GEOSGeom_destroy(g1);
1935  HANDLE_GEOS_ERROR("Second argument geometry could not be converted to GEOS");
1936  }
1937  result = GEOSRelatePattern( g1, g2, "T**FF*FF*" );
1938  GEOSGeom_destroy(g1);
1939  GEOSGeom_destroy(g2);
1940  }
1941 
1942  if (result == 2) HANDLE_GEOS_ERROR("GEOSContains");
1943 
1944  PG_RETURN_BOOL(result);
1945 }
result
char result[OUT_DOUBLE_BUFFER_SIZE]
Definition: cu_print.c:267
gbox_contains_2d
int gbox_contains_2d(const GBOX *g1, const GBOX *g2)
Return LW_TRUE if the first GBOX contains the second on the 2d plane, LW_FALSE otherwise.
Definition: gbox.c:339
gserialized_error_if_srid_mismatch
void gserialized_error_if_srid_mismatch(const GSERIALIZED *g1, const GSERIALIZED *g2, const char *funcname)
Definition: gserialized.c:403
gserialized_get_gbox_p
int gserialized_get_gbox_p(const GSERIALIZED *g, GBOX *gbox)
Read the box from the GSERIALIZED or calculate it if necessary.
Definition: gserialized.c:65
gserialized_is_empty
int gserialized_is_empty(const GSERIALIZED *g)
Check if a GSERIALIZED is empty without deserializing first.
Definition: gserialized.c:152
lwgeom_geos_error
void lwgeom_geos_error(const char *fmt,...)
Definition: liblwgeom/lwgeom_geos.c:43
GetPrepGeomCache
PrepGeomCache * GetPrepGeomCache(FunctionCallInfo fcinfo, SHARED_GSERIALIZED *g1, SHARED_GSERIALIZED *g2)
Given a couple potential geometries and a function call context, return a prepared structure for one ...
Definition: lwgeom_geos_prepared.c:369
HANDLE_GEOS_ERROR
#define HANDLE_GEOS_ERROR(label)
Definition: postgis/lwgeom_geos.c:54
POSTGIS2GEOS
GEOSGeometry * POSTGIS2GEOS(const GSERIALIZED *pglwgeom)
Definition: postgis/lwgeom_geos.c:2747
PrepGeomCache::prepared_geom
const GEOSPreparedGeometry * prepared_geom
Definition: lwgeom_geos_prepared.h:60

References gbox_contains_2d(), PrepGeomCache::gcache, GetPrepGeomCache(), gserialized_error_if_srid_mismatch(), gserialized_get_gbox_p(), gserialized_is_empty(), HANDLE_GEOS_ERROR, lwgeom_geos_error(), POSTGIS2GEOS(), PrepGeomCache::prepared_geom, and result.

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