The table below lists all the
geo built-in
functions (in this namespace:
http://marklogic.com/geospatial
).
You can also view these functions broken down by category:
Use the following geospatial built-in functions to perform operations on geospatial values, such as region containment or intersection, and conversion between MarkLogic geospatial primitive values and standard formats such as WKT.
Function name | Description |
---|---|
geo.approxCenter | Return a point approximating the center of the given region. |
geo.arcIntersection | Returns the point at the intersection of two arcs. |
geo.bearing | Returns the true bearing in radians of the path from the first point to the second. |
geo.boundingBoxes | Returns a sequence of boxes that bound the given region. |
geo.box | Create a cts.box value from a node representing a box in one of the supported markup vocabularies, such as KML, GML, or GeoJSON. |
geo.boxIntersects | Returns true if the box intersects with a region. |
geo.circle | Create a cts.box value from a radius and a node representing a point in one of the supported markup vocabularies, such as KML, GML, or GeoJSON. |
geo.circleIntersects | Returns true if the circle intersects with a region. |
geo.circlePolygon | Construct a polygon approximating a circle. |
geo.complexPolygon | Create a cts.complexPolygon value from a node representing a complex polygon in one of the supported markup vocabularies, such as KML, GML, or GeoJSON. |
geo.complexPolygonContains | Returns true if the complex-polygon contains a region. |
geo.complexPolygonIntersects | Returns true if the complex-polygon intersects with a region. |
geo.coordinateSystemCanonical | Get the canonical name for the coordinate system. |
geo.countDistinctVertices | Return a count of the distinct number of vertices in a region, taking tolerance into account. |
geo.countVertices | This function returns a count of the number of vertices in a region. |
geo.defaultCoordinateSystem | Get the canonical name for the coordinate system currently in effect. |
geo.destination | Returns the point at the given distance (in units) along the given bearing (in radians) from the starting point. |
geo.distance | Returns the distance (in units) between two points. |
geo.distanceConvert | This function converts a distance from one unit of measure to another. |
geo.ellipsePolygon | Construct a polygon approximating an ellipse. |
geo.geohashDecode | Given a geohash string, return the bounding box for that hash. |
geo.geohashDecodePoint | Given a geohash string, return the point for that hash. |
geo.geohashEncode | Compute a set of covering geohashes for the given region, to the given level of precision. |
geo.geohashNeighbors | Given a geohash string, return hashes for the neighbors. |
geo.geohashPrecisionDimensions | Given a geohash string, return the height and width for the given precision. |
geo.geohashSubhashes | Given a geohash string, return the 32 subhashes. |
geo.geospatialQuery | Returns a query matching points within given regions. |
geo.geospatialQueryFromElements | Returns a query matching points within given regions. |
geo.geospatialQueryFromNodes | Returns a query matching points within given regions. |
geo.interiorPoint | This function returns a point that is guaranteed to be inside the bounds of the given region. |
geo.interiorPolygon | Create a sequence of cts.polygon values from a polygon node in one of the supported markup vocabularies, such as KML or GML. |
geo.linestring | Create a cts.linestring value from a node representing a linestring in one of the supported markup vocabularies, such as GML or KML. |
geo.linestringConcat | Construct a linestring by concatenating the vertices of the input linestrings, in order. |
geo.linestringReverse | Construct a linestring with the vertices in reverse order. |
geo.parse | Convert nodes in one or more of the supported geospatial representations into cts.region values. |
geo.parseWkb | Returns a sequence of geospatial regions parsed from Well-Known Binary format. |
geo.parseWkt | Returns a sequence of geospatial regions parsed from Well-Known Text format. |
geo.point | Create a cts.point value from a node representing a point in one of the supported markup vocabularies, such as KML or GML. |
geo.polygon | Create a cts.polygon value from a sequence of point nodes in one of the supported markup vocabularies, such as KML or GML. |
geo.polygonContains | Returns true if the polygon contains a region. |
geo.polygonIntersects | Returns true if the polygon intersects with a region. |
geo.polygonToLinestring | Construct a linestring from the vertices of a polygon, or construct a sequence of linestrings from the outer and inner polygons of a complex polygon. |
geo.regionAffineTransform | Perform an affine transformation on a geospatial region. |
geo.regionApproximate | This function returns a simplified approximation of the region, using the Douglas-Peucker algorithm. |
geo.regionClean | This function fixes various problems with the region or raises an error if it is not repairable. |
geo.regionContains | Returns true if one region contains the other region. |
geo.regionDe9im | Calculates the Dimensionally Extended nine-Intersection Matrix (DE-9IM) of two geospatial regions. |
geo.regionIntersects | Returns true if the target region intersects with a region. |
geo.regionRelate | Compares geospatial regions based on a specified relationship. |
geo.removeDuplicateVertices | Remove duplicate (adjacent) vertices. |
geo.shortestDistance | Returns the great circle distance (in units) between a point and a region. |
geo.toWkb | Returns a binary node in Well-Known Binary format. |
geo.toWkt | Returns a sequence of strings in Well-Known Text format. |
geo.validateWkb | Returns true if the binary data can be parsed as WKB into a supported region type. |
geo.validateWkt | Returns true if the string is valid Well-Known Text for a supported region type. |