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Available Functions
Odysseus provides a wide range of functions to be used in a Map, Select, or Join operator.
Mathematical Functions
Cos(X)
Returns the trigonometric cosine of an angle
ACos(X)
Returns the arc cosine of a value
Cosh(X)
Returns the hyperbolic cosine of a double value
Sin(X)
Returns the trigonometric sine of an angle
ASin(X)
Returns the arc sine of a value
Sinh(X)
Returns the hyperbolic sine of a double value
Tan(X)
Returns the trigonometric tangent of an angle
ATan(X)
Returns the arc tangent of a value
ATan2(Y,X)
Returns the angle theta from the conversion of rectangular coordinates (x, y) to polar coordinates (r, theta)
Tanh(X)
Returns the hyperbolic tangent of a double value
Abs(X)
Returns the absolute value of a value
Sign(X)
Returns the signum function of the argument
Sqrt(X)
Returns the square root of a value
Ceil(X)
Returns the smallest value that is greater than or equal to the argument and is equal to a mathematical integer.
Floor(X)
Returns the largest value that is less than or equal to the argument and is equal to a mathematical integer.
Round(X)
Returns the closest number to the argument, with ties rounding up
Log(X)
Returns the natural logarithm (base e) of a double value
Exp(X)
Returns Euler's number e raised to the power of a double value
PI()
Returns the double value that is closer than any other to pi.
E()
Returns the double value that is closer than any other to e
ToRadians(X)
Converts an angle measured in degrees to an equivalent angle measured in radians.
ToDegrees(X)
Converts an angle measured in radians to an equivalent angle measured in degrees.
Optional Functions
The following MEP functions are not part of the Odysseus Core and may be restricted.
Spatial Functions (Spatial Feature)
The spatial functions are based upon the JTS Topology Suite (http://www.vividsolutions.com/jts/JTSHome.htm).
Notice, that JTS only considers x and y coordinate and ignores the z coordinate (although z can be definied)!
AsCartesianCoordinates(SpatialPolarCoordinate[])
Transform the list of spatial polar coordinates into a list of Cartesian coordinates
AsGeometry(Geometry)
AsGeometryCollection(Geometry)
AsLineString(Geometry)
AsMultiLineString(Geometry)
AsMultiPoint(Geometry)
AsMultiPolygon(Geometry)
AsPoint(Geometry)
AsPolarCoordinates()
FromWKT()
GetCentroid(Geometry)
Returns the centroid of the given geometry
SpatialBuffer(Geometry, Double)
Creates a buffer of the given size around the given geometry
SpatialContains(Geometry, Geometry)
Checks whether the first geometry contains the second geometry.
SpatialConvexHull(Geometry)
Computes the smallest convex spatial polygon
that contains all the points in the geometry
SpatialCoveredBy(Geometry, Geometry)
SpatialCovers(Geometry, Geometry)
SpatialCrosses(Geometry, Geometry)
SpatialDisjoint(Geometry, Geometry)
SpatialEquals(Geometry, Geometry)
SpatialIntersection(Geometry, Geometry)
SpatialIsLine(Geometry)
SpatialIsPolygon(Geometry)
SpatialIsWithinDistance(Geometry, Double)
SpatialTouches(Geometry, Geometry)
SpatialUnion(Geometry, Geometry)
SpatialUnionBuffer(Geometry, Geometry, Geometry)
SpatialWithin(Geometry, Geometry)
ST_SetSRID(Geometry, Integer)
ST_Transform(Geometry, Integer)
ToCartesianCoordinate(SpatialPolarCoordinate)
Transforms the given spatial polar coordinate into a spatial Cartesian coordinate.
ToPolarCoordinate(SpatialCoordinate)
Transforms the given spatial Cartesian coordinate into a polar coordinate
Most function descriptions on this page are copied from the openjdk documentation.
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