Predicate
ST_Contains¶
Introduction: Return true if A fully contains B
Format: ST_Contains (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Contains(ST_GeomFromWKT('POLYGON((175 150,20 40,50 60,125 100,175 150))'), ST_GeomFromWKT('POINT(174 149)'))
Output:
false
ST_Crosses¶
Introduction: Return true if A crosses B
Format: ST_Crosses (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Crosses(ST_GeomFromWKT('POLYGON((1 1, 4 1, 4 4, 1 4, 1 1))'),ST_GeomFromWKT('POLYGON((2 2, 5 2, 5 5, 2 5, 2 2))'))
Output:
false
ST_Disjoint¶
Introduction: Return true if A and B are disjoint
Format: ST_Disjoint (A: Geometry, B: Geometry)
Since: v1.2.1
SQL Example
SELECT ST_Disjoint(ST_GeomFromWKT('POLYGON((1 4, 4.5 4, 4.5 2, 1 2, 1 4))'),ST_GeomFromWKT('POLYGON((5 4, 6 4, 6 2, 5 2, 5 4))'))
Output:
true
ST_DWithin¶
Introduction: Returns true if 'leftGeometry' and 'rightGeometry' are within a specified 'distance'.
If useSpheroid
is passed true, ST_DWithin uses Sedona's ST_DistanceSpheroid to check the spheroid distance between the centroids of two geometries. The unit of the distance in this case is meter.
If useSpheroid
is passed false, ST_DWithin uses Euclidean distance and the unit of the distance is the same as the CRS of the geometries. To obtain the correct result, please consider using ST_Transform to put data in an appropriate CRS.
If useSpheroid is not given, it defaults to false
Format: ST_DWithin (leftGeometry: Geometry, rightGeometry: Geometry, distance: Double, useSpheroid: Optional(Boolean) = false)
Since: v1.5.1
SQL Example
SELECT ST_DWithin(ST_GeomFromWKT('POINT (0 0)'), ST_GeomFromWKT('POINT (1 0)'), 2.5)
Output:
true
Check for distance between New York and Seattle (< 4000 km)
SELECT ST_DWithin(ST_GeomFromWKT(-122.335167 47.608013), ST_GeomFromWKT(-73.935242 40.730610), 4000000, true)
Output:
true
ST_Equals¶
Introduction: Return true if A equals to B
Format: ST_Equals (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Equals(ST_GeomFromWKT('LINESTRING(0 0,10 10)'), ST_GeomFromWKT('LINESTRING(0 0,5 5,10 10)'))
Output:
true
ST_Intersects¶
Introduction: Return true if A intersects B
Format: ST_Intersects (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Intersects(ST_GeomFromWKT('LINESTRING(-43.23456 72.4567,-43.23456 72.4568)'), ST_GeomFromWKT('POINT(-43.23456 72.4567772)'))
Output:
true
ST_OrderingEquals¶
Introduction: Returns true if the geometries are equal and the coordinates are in the same order
Format: ST_OrderingEquals(A: geometry, B: geometry)
Since: v1.2.1
SQL Example
SELECT ST_OrderingEquals(ST_GeomFromWKT('POLYGON((2 0, 0 2, -2 0, 2 0))'), ST_GeomFromWKT('POLYGON((2 0, 0 2, -2 0, 2 0))'))
Output:
true
SQL Example
SELECT ST_OrderingEquals(ST_GeomFromWKT('POLYGON((2 0, 0 2, -2 0, 2 0))'), ST_GeomFromWKT('POLYGON((0 2, -2 0, 2 0, 0 2))'))
Output:
false
ST_Overlaps¶
Introduction: Return true if A overlaps B
Format: ST_Overlaps (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Overlaps(ST_GeomFromWKT('POLYGON((2.5 2.5, 2.5 4.5, 4.5 4.5, 4.5 2.5, 2.5 2.5))'), ST_GeomFromWKT('POLYGON((4 4, 4 6, 6 6, 6 4, 4 4))'))
Output:
true
ST_Relate¶
Introduction: The first variant of the function computes and returns the Dimensionally Extended 9-Intersection Model (DE-9IM) matrix string representing the spatial relationship between the two input geometry objects.
The second variant of the function evaluates whether the two input geometries satisfy a specific spatial relationship defined by the provided intersectionMatrix
pattern.
Note
It is important to note that this function is not optimized for use in spatial join operations. Certain DE-9IM relationships can hold true for geometries that do not intersect or are disjoint. As a result, it is recommended to utilize other dedicated spatial functions specifically optimized for spatial join processing.
Format:
ST_Relate(geom1: Geometry, geom2: Geometry)
ST_Relate(geom1: Geometry, geom2: Geometry, intersectionMatrix: String)
Since: v1.6.1
SQL Example
SELECT ST_Relate(
ST_GeomFromWKT('LINESTRING (1 1, 5 5)'),
ST_GeomFromWKT('POLYGON ((3 3, 3 7, 7 7, 7 3, 3 3))')
)
Output:
1010F0212
SQL Example
SELECT ST_Relate(
ST_GeomFromWKT('LINESTRING (1 1, 5 5)'),
ST_GeomFromWKT('POLYGON ((3 3, 3 7, 7 7, 7 3, 3 3))'),
"1010F0212"
)
Output:
true
ST_RelateMatch¶
Introduction: This function tests the relationship between two Dimensionally Extended 9-Intersection Model (DE-9IM) matrices representing geometry intersections. It evaluates whether the DE-9IM matrix specified in matrix1
satisfies the intersection pattern defined by matrix2
. The matrix2
parameter can be an exact DE-9IM value or a pattern containing wildcard characters.
Note
It is important to note that this function is not optimized for use in spatial join operations. Certain DE-9IM relationships can hold true for geometries that do not intersect or are disjoint. As a result, it is recommended to utilize other dedicated spatial functions specifically optimized for spatial join processing.
Format: ST_RelateMatch(matrix1: String, matrix2: String)
Since: v1.6.1
SQL Example:
SELECT ST_RelateMatch('101202FFF', 'TTTTTTFFF')
Output:
true
ST_Touches¶
Introduction: Return true if A touches B
Format: ST_Touches (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Touches(ST_GeomFromWKT('LINESTRING(0 0,1 1,0 2)'), ST_GeomFromWKT('POINT(0 2)'))
Output:
true
ST_Within¶
Introduction: Return true if A is fully contained by B
Format: ST_Within (A: Geometry, B: Geometry)
Since: v1.0.0
SQL Example
SELECT ST_Within(ST_GeomFromWKT('POLYGON((0 0,3 0,3 3,0 3,0 0))'), ST_GeomFromWKT('POLYGON((1 1,2 1,2 2,1 2,1 1))'))
Output:
false
ST_Covers¶
Introduction: Return true if A covers B
Format: ST_Covers (A: Geometry, B: Geometry)
Since: v1.3.0
SQL Example
SELECT ST_Covers(ST_GeomFromWKT('POLYGON((-2 0,0 2,2 0,-2 0))'), ST_GeomFromWKT('POLYGON((-1 0,0 1,1 0,-1 0))'))
Output:
true
ST_CoveredBy¶
Introduction: Return true if A is covered by B
Format: ST_CoveredBy (A: Geometry, B: Geometry)
Since: v1.3.0
SQL Example
SELECT ST_CoveredBy(ST_GeomFromWKT('POLYGON((0 0,3 0,3 3,0 3,0 0))'), ST_GeomFromWKT('POLYGON((1 1,2 1,2 2,1 2,1 1))'))
Output:
false