PostGIS  3.7.0dev-r@@SVN_REVISION@@

◆ disjoint()

Datum disjoint ( PG_FUNCTION_ARGS  )

Definition at line 293 of file lwgeom_geos_predicates.c.

294 {
295  SHARED_GSERIALIZED *shared_geom1 = ToastCacheGetGeometry(fcinfo, 0);
296  SHARED_GSERIALIZED *shared_geom2 = ToastCacheGetGeometry(fcinfo, 1);
297  const GSERIALIZED *geom1 = shared_gserialized_get(shared_geom1);
298  const GSERIALIZED *geom2 = shared_gserialized_get(shared_geom2);
299  char result;
300  GBOX box1, box2;
301  PrepGeomCache *prep_cache;
302 
303  gserialized_error_if_srid_mismatch(geom1, geom2, __func__);
304 
305  /* A.Disjoint(Empty) == TRUE */
306  if ( gserialized_is_empty(geom1) || gserialized_is_empty(geom2) )
307  PG_RETURN_BOOL(true);
308 
309  /*
310  * Short-circuit 1: if geom2 bounding box does not overlap
311  * geom1 bounding box we can return TRUE.
312  */
313  if ( gserialized_get_gbox_p(geom1, &box1) &&
314  gserialized_get_gbox_p(geom2, &box2) )
315  {
316  if ( gbox_overlaps_2d(&box1, &box2) == LW_FALSE )
317  {
318  PG_RETURN_BOOL(true);
319  }
320  }
321 
322  initGEOS(lwpgnotice, lwgeom_geos_error);
323 
324  prep_cache = GetPrepGeomCache(fcinfo, shared_geom1, shared_geom2);
325  if ( prep_cache && prep_cache->prepared_geom )
326  {
327  GEOSGeometry *g = prep_cache->gcache.argnum == 1
328  ? POSTGIS2GEOS(geom2)
329  : POSTGIS2GEOS(geom1);
330  if (!g) HANDLE_GEOS_ERROR("Geometry could not be converted to GEOS");
331  result = GEOSPreparedDisjoint(prep_cache->prepared_geom, g);
332  GEOSGeom_destroy(g);
333  }
334  else
335  {
336  GEOSGeometry *g1, *g2;
337  g1 = POSTGIS2GEOS(geom1);
338  if (!g1) HANDLE_GEOS_ERROR("First argument geometry could not be converted to GEOS");
339  g2 = POSTGIS2GEOS(geom2);
340  if (!g2)
341  {
342  GEOSGeom_destroy(g1);
343  HANDLE_GEOS_ERROR("Second argument geometry could not be converted to GEOS");
344  }
345  result = GEOSDisjoint(g1, g2);
346  GEOSGeom_destroy(g1);
347  GEOSGeom_destroy(g2);
348  }
349 
350  if (result == 2) HANDLE_GEOS_ERROR("GEOSDisjoint");
351 
352  PG_RETURN_BOOL(result);
353 }
result
char result[OUT_DOUBLE_BUFFER_SIZE]
Definition: cu_print.c:267
gbox_overlaps_2d
int gbox_overlaps_2d(const GBOX *g1, const GBOX *g2)
Return LW_TRUE if the GBOX overlaps on the 2d plane, LW_FALSE otherwise.
Definition: gbox.c:323
gserialized_error_if_srid_mismatch
void gserialized_error_if_srid_mismatch(const GSERIALIZED *g1, const GSERIALIZED *g2, const char *funcname)
Definition: gserialized.c:432
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:94
gserialized_is_empty
int gserialized_is_empty(const GSERIALIZED *g)
Check if a GSERIALIZED is empty without deserializing first.
Definition: gserialized.c:181
lwgeom_geos_error
void lwgeom_geos_error(const char *fmt,...)
Definition: liblwgeom/lwgeom_geos.c:57
LW_FALSE
#define LW_FALSE
Definition: liblwgeom.h:94
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
POSTGIS2GEOS
GEOSGeometry * POSTGIS2GEOS(const GSERIALIZED *pglwgeom)
Definition: postgis/lwgeom_geos.c:1822
HANDLE_GEOS_ERROR
#define HANDLE_GEOS_ERROR(label)
Definition: postgis/lwgeom_geos.h:56
PrepGeomCache::prepared_geom
const GEOSPreparedGeometry * prepared_geom
Definition: lwgeom_geos_prepared.h:54

References gbox_overlaps_2d(), PrepGeomCache::gcache, GetPrepGeomCache(), gserialized_error_if_srid_mismatch(), gserialized_get_gbox_p(), gserialized_is_empty(), HANDLE_GEOS_ERROR, LW_FALSE, lwgeom_geos_error(), POSTGIS2GEOS(), PrepGeomCache::prepared_geom, and result.

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