ST_Intersection
Name
ST_Intersection — (T) Returns a geometry that represents the shared portion of geomA and geomB.
Synopsis
geometry
ST_Intersection
(
geometry
geomA
,
geometry
geomB
)
;
geography
ST_Intersection
(
geography
geogA
,
geography
geogB
)
;
Description
Returns a geometry that represents the point set intersection of the Geometries.
In other words - that portion of geometry A and geometry B that is shared between the two geometries.
If the geometries do not share any space (are disjoint), then an empty geometry collection is returned.
ST_Intersection in conjunction with ST_Intersects is very useful for clipping geometries such as in bounding box, buffer, region queries where you only want to return that portion of a geometry that sits in a country or region of interest.
Geography: For geography this is really a thin wrapper around the geometry implementation. It first determines the best SRID that fits the bounding box of the 2 geography objects (if geography objects are within one half zone UTM but not same UTM will pick one of those) (favoring UTM or Lambert Azimuthal Equal Area (LAEA) north/south pole, and falling back on mercator in worst case scenario) and then intersection in that best fit planar spatial ref and retransforms back to WGS84 geography. |
Do not call with a
|
If working with 3D geometries, you may want to use SFGCAL based
ST_3DIntersection
which does a proper 3D intersection for 3D geometries. Although this function works with Z-coordinate, it does an averaging of Z-Coordinate values when
|
Performed by the GEOS module
This method is also provided by SFCGAL backend.
Availability: 1.5 support for geography data type was introduced.
This method implements the OpenGIS Simple Features Implementation Specification for SQL 1.1. s2.1.1.3
This method implements the SQL/MM specification. SQL-MM 3: 5.1.18
Examples
SELECT ST_AsText(ST_Intersection('POINT(0 0)'::geometry, 'LINESTRING ( 2 0, 0 2 )'::geometry)); st_astext --------------- GEOMETRYCOLLECTION EMPTY (1 row) SELECT ST_AsText(ST_Intersection('POINT(0 0)'::geometry, 'LINESTRING ( 0 0, 0 2 )'::geometry)); st_astext --------------- POINT(0 0) (1 row) ---Clip all lines (trails) by country (here we assume country geom are POLYGON or MULTIPOLYGONS) -- NOTE: we are only keeping intersections that result in a LINESTRING or MULTILINESTRING because we don't -- care about trails that just share a point -- the dump is needed to expand a geometry collection into individual single MULT* parts -- the below is fairly generic and will work for polys, etc. by just changing the where clause SELECT clipped.gid, clipped.f_name, clipped_geom FROM (SELECT trails.gid, trails.f_name, (ST_Dump(ST_Intersection(country.the_geom, trails.the_geom))).geom As clipped_geom FROM country INNER JOIN trails ON ST_Intersects(country.the_geom, trails.the_geom)) As clipped WHERE ST_Dimension(clipped.clipped_geom) = 1 ; --For polys e.g. polygon landmarks, you can also use the sometimes faster hack that buffering anything by 0.0 -- except a polygon results in an empty geometry collection --(so a geometry collection containing polys, lines and points) -- buffered by 0.0 would only leave the polygons and dissolve the collection shell SELECT poly.gid, ST_Multi(ST_Buffer( ST_Intersection(country.the_geom, poly.the_geom), 0.0) ) As clipped_geom FROM country INNER JOIN poly ON ST_Intersects(country.the_geom, poly.the_geom) WHERE Not ST_IsEmpty(ST_Buffer(ST_Intersection(country.the_geom, poly.the_geom),0.0));
Examples: 2.5Dish
Geos is the default backend if not set. Note this is not a true intersection, compare to the same example using ST_3DIntersection .
set postgis.backend=geos; select ST_AsText(ST_Intersection(linestring, polygon)) As wkt from ST_GeomFromText('LINESTRING Z (2 2 6,1.5 1.5 7,1 1 8,0.5 0.5 8,0 0 10)') AS linestring CROSS JOIN ST_GeomFromText('POLYGON((0 0 8, 0 1 8, 1 1 8, 1 0 8, 0 0 8))') AS polygon; st_astext --------------------------------------- LINESTRING Z (1 1 8,0.5 0.5 8,0 0 10)
If your PostGIS is compiled with sfcgal support, have option of using sfcgal, but note if basically cases down both geometries to 2D before doing intersection and returns the ST_Force2D equivalent result which is a 2D geometry
set postgis.backend=sfcgal; select ST_AsText(ST_Intersection(linestring, polygon)) As wkt from ST_GeomFromText('LINESTRING Z (2 2 6,1.5 1.5 7,1 1 8,0.5 0.5 8,0 0 10)') AS linestring CROSS JOIN ST_GeomFromText('POLYGON((0 0 8, 0 1 8, 1 1 8, 1 0 8, 0 0 8))') AS polygon; wkt ---------------------------------------------- MULTILINESTRING((0.5 0.5,0 0),(1 1,0.5 0.5))
See Also
ST_3DIntersection , ST_Difference , ST_Dimension , ST_Dump , ST_Force2D , ST_SymDifference , ST_Intersects , ST_Multi