Class DefaultGeographicCRS

  • All Implemented Interfaces:
    Serializable, Deprecable, Lenient­Comparable, Coordinate­Reference­System, Geodetic­CRS, Geographic­CRS, Single­CRS, Identified­Object, Reference­System

    public class DefaultGeographicCRS
    extends AbstractCRS
    implements GeographicCRS
    A 2- or 3-dimensional coordinate reference system based on an ellipsoidal approximation of the geoid. This provides an accurate representation of the geometry of geographic features for a large portion of the earth's surface.

    Used with datum type: Geodetic.
    Used with coordinate system type: Ellipsoidal.

    Creating new geographic CRS instances
    New instances can be created either directly by specifying all information to a factory method (choices 3 and 4 below), or indirectly by specifying the identifier of an entry in a database (choices 1 and 2 below). Choice 1 in the following list is the easiest but most restrictive way to get a geographic CRS. The other choices provide more freedom.
    1. Create a Geographic­CRS from one of the static convenience shortcuts listed in Common­CRS​.geographic() or Common­CRS​.geographic3D().
    2. Create a Geographic­CRS from an identifier in a database by invoking Geodetic­Authority­Factory​.create­Geographic­CRS(String).
    3. Create a Geographic­CRS by invoking the CRSFactory​.create­Geographic­CRS(…) method (implemented for example by Geodetic­Object­Factory).
    4. Create a Geographic­CRS by invoking the constructor.
    Example: the following code gets a two-dimensional geographic CRS using the World Geodetic System 1984 datum:
    GeodeticDatum datum = CommonCRS.WGS84.geographic();
    Immutability and thread safety
    This class is immutable and thus thread-safe if the property values (not necessarily the map itself), the coordinate system and the datum instances given to the constructor are also immutable. Unless otherwise noted in the javadoc, this condition holds if all components were created using only SIS factories and static constants.
    Since:
    0.4
    See Also:
    Geodetic­Authority­Factory​.create­Geographic­CRS(String), Serialized Form

    Defined in the sis-referencing module

    • Method Detail

      • castOrCopy

        public static DefaultGeographicCRS castOrCopy​(GeographicCRS object)
        Returns a SIS coordinate reference system implementation with the same values than the given arbitrary implementation. If the given object is null, then this method returns null. Otherwise if the given object is already a SIS implementation, then the given object is returned unchanged. Otherwise a new SIS implementation is created and initialized to the attribute values of the given object.
        Parameters:
        object - the object to get as a SIS implementation, or null if none.
        Returns:
        a SIS implementation containing the values of the given object (may be the given object itself), or null if the argument was null.
      • getInterface

        public Class<? extends GeographicCRS> getInterface()
        Returns the GeoAPI interface implemented by this class. The SIS implementation returns Geographic­CRS​.class.
        Note for implementers: Subclasses usually do not need to override this method since GeoAPI does not define Geographic­CRS sub-interface. Overriding possibility is left mostly for implementers who wish to extend GeoAPI with their own set of interfaces.
        Returns:
        Geographic­CRS​.class or a user-defined sub-interface.
      • getDatum

        public final GeodeticDatum getDatum()
        Returns the geodetic datum associated to this geographic CRS. This is the datum given at construction time.
        Specified by:
        get­Datum in interface Geodetic­CRS
        Specified by:
        get­Datum in interface Single­CRS
        Returns:
        the geodetic datum associated to this geographic CRS.
      • forConvention

        public DefaultGeographicCRS forConvention​(AxesConvention convention)
        Returns a coordinate reference system equivalent to this one but with axes rearranged according the given convention. If this CRS is already compatible with the given convention, then this method returns this.
        Overrides:
        for­Convention in class Abstract­CRS
        Parameters:
        convention - the axes convention for which a coordinate reference system is desired.
        Returns:
        a coordinate reference system compatible with the given convention (may be this).
        See Also:
        Abstract­CS​.for­Convention(Axes­Convention)
      • formatTo

        protected String formatTo​(Formatter formatter)
        Formats this CRS as a Well Known Text Geodetic­CRS[…] element.
        Example: Well-Known Text (version 2) of a geographic coordinate reference system using the WGS 84 datum.
        GeodeticCRS["WGS 84",
           Datum["World Geodetic System 1984",
             Ellipsoid["WGS84", 6378137.0, 298.257223563, LengthUnit["metre", 1]]],
             PrimeMeridian["Greenwich", 0.0, AngleUnit["degree", 0.017453292519943295]],
           CS["ellipsoidal", 2],
             Axis["Latitude", north],
             Axis["Longitude", east],
             AngleUnit["degree", 0.017453292519943295],
           Area["World"],
           BBox[-90.00, -180.00, 90.00, 180.00],
           Scope["Used by GPS satellite navigation system."],
           Id["EPSG", 4326, Citation["IOGP"], URI["urn:ogc:def:crs:EPSG::4326"]]]

        Same coordinate reference system using WKT 1.

        GEOGCS["WGS 84",
           DATUM["World Geodetic System 1984",
             SPHEROID["WGS84", 6378137.0, 298.257223563]],
             PRIMEM["Greenwich", 0.0],
           UNIT["degree", 0.017453292519943295],
           AXIS["Latitude", NORTH],
           AXIS["Longitude", EAST],
           AUTHORITY["EPSG", "4326"]]
        Parameters:
        formatter - the formatter where to format the inner content of this WKT element.
        Returns:
        "Geodetic­CRS" (WKT 2) or "Geog­CS" (WKT 1).
        See Also:
        WKT 2 specification §8