Class GeodeticObjectFactory
- All Implemented Interfaces:
- Parser,- CRSFactory,- CSFactory,- DatumFactory,- ObjectFactory,- Factory
- For users, allows the creation of complex objects that cannot be created by the authority factories, without explicit dependency to Apache SIS (when using the GeoAPI interfaces implemented by this class).
- For providers, allows inversion of control by overriding methods in this class,
       then specifying the customized instance to other services that consume CRSFactory(for example authority factories or WKT parsers).
GeodeticObjectFactory class is not easy to use directly.
 Users are encouraged to use an authority factory instead
 (or the CRS.forCode(String) convenience method)
 when the CRS object to construct can be identified by a code in the namespace of an authority (typically EPSG).
 Object properties
Most factory methods expect aMap<String,?> argument, often followed by explicit arguments.
 Unless otherwise noticed, information provided in the properties map are considered ignorable metadata
 while information provided in explicit arguments have an impact on coordinate transformation results.
 The following table lists the keys recognized by the GeodeticObjectFactory default implementation,
 together with the type of values associated to those keys.
 A value for the "name" key is mandatory for all objects, while all other properties are optional.
 GeodeticObjectFactory methods ignore all unknown properties.
Localization
All localizable attributes like"remarks" may have a language and country code suffix.
 For example, the "remarks_fr" property stands for remarks in French and
 the "remarks_fr_CA" property stands for remarks in French Canadian.
 They are convenience properties for building the InternationalString value.
 The "locale" property applies only in case of exception for formatting the error message, and
 is used only on a best effort basis. The locale is discarded after successful construction
 since localizations are applied by the InternationalString.toString(Locale) method.
- Since:
- 0.6
Defined in the sis-referencing module
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Constructor SummaryConstructorsConstructorDescriptionConstructs a factory with no default properties.GeodeticObjectFactory(Map<String, ?> properties) Constructs a factory with the given default properties.
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Method SummaryModifier and TypeMethodDescriptionReturns the union of the givenpropertiesmap with the default properties given at construction time.createAffineCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) Creates a two-dimensional affine coordinate system from the given pair of axis.createAffineCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates a three-dimensional affine coordinate system from the given set of axis.createCartesianCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) Creates a two-dimensional Cartesian coordinate system from the given pair of axis.createCartesianCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates a three-dimensional Cartesian coordinate system from the given set of axis.createCompoundCRS(Map<String, ?> properties, CoordinateReferenceSystem... components) Creates a compound coordinate reference system from an ordered list of CRS components.createCoordinateSystemAxis(Map<String, ?> properties, String abbreviation, AxisDirection direction, Unit<?> unit) Creates a coordinate system axis from an abbreviation and a unit.createCylindricalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates a cylindrical coordinate system from the given set of axis.createDerivedCRS(Map<String, ?> properties, CoordinateReferenceSystem baseCRS, Conversion conversion, CoordinateSystem derivedCS) Creates a derived coordinate reference system from a conversion.createEllipsoid(Map<String, ?> properties, double semiMajorAxis, double semiMinorAxis, Unit<Length> unit) Creates an ellipsoid from semi-axis length values.createEllipsoidalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) Creates an ellipsoidal coordinate system without ellipsoidal height.createEllipsoidalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates an ellipsoidal coordinate system with ellipsoidal height.createEngineeringCRS(Map<String, ?> properties, EngineeringDatum datum, CoordinateSystem cs) Creates a engineering coordinate reference system.createEngineeringDatum(Map<String, ?> properties) Creates an engineering datum.createFlattenedSphere(Map<String, ?> properties, double semiMajorAxis, double inverseFlattening, Unit<Length> unit) Creates an ellipsoid from a major semi-axis length and inverse flattening.createFromWKT(String text) Creates a Coordinate Reference System object from a Well Known Text (WKT).createFromXML(String xml) Creates a coordinate reference system object from a XML string.createGeocentricCRS(Map<String, ?> properties, GeodeticDatum datum, CartesianCS cs) Creates a geocentric coordinate reference system from a Cartesian coordinate system.createGeocentricCRS(Map<String, ?> properties, GeodeticDatum datum, SphericalCS cs) Creates a geocentric coordinate reference system from a spherical coordinate system.createGeodeticDatum(Map<String, ?> properties, Ellipsoid ellipsoid, PrimeMeridian primeMeridian) Creates geodetic datum from ellipsoid and (optionally) Bursa-Wolf parameters.createGeographicCRS(Map<String, ?> properties, GeodeticDatum datum, EllipsoidalCS cs) Creates a geographic coordinate reference system.createImageCRS(Map<String, ?> properties, ImageDatum datum, AffineCS cs) Creates an image coordinate reference system.createImageDatum(Map<String, ?> properties, PixelInCell pixelInCell) Creates an image datum.createLinearCS(Map<String, ?> properties, CoordinateSystemAxis axis) Creates a linear coordinate system.createParametricCRS(Map<String, ?> properties, DefaultParametricDatum datum, DefaultParametricCS cs) Creates a parametric coordinate reference system.createParametricCS(Map<String, ?> properties, CoordinateSystemAxis axis) Creates a parametric coordinate system.createParametricDatum(Map<String, ?> properties) Creates a parametric datum.createPolarCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) Creates a polar coordinate system from the given pair of axis.createPrimeMeridian(Map<String, ?> properties, double longitude, Unit<Angle> angularUnit) Creates a prime meridian, relative to Greenwich.createProjectedCRS(Map<String, ?> properties, GeographicCRS baseCRS, Conversion conversion, CartesianCS derivedCS) Creates a projected coordinate reference system from a conversion.createSphericalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates a spherical coordinate system from the given set of axis.createTemporalCRS(Map<String, ?> properties, TemporalDatum datum, TimeCS cs) Creates a temporal coordinate reference system.createTemporalDatum(Map<String, ?> properties, Date origin) Creates a temporal datum from an enumerated type value.createTimeCS(Map<String, ?> properties, CoordinateSystemAxis axis) Creates a temporal coordinate system.createUserDefinedCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) Creates a two-dimensional user defined coordinate system from the given pair of axis.createUserDefinedCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) Creates a three-dimensional user defined coordinate system from the given set of axis.createVerticalCRS(Map<String, ?> properties, VerticalDatum datum, VerticalCS cs) Creates a vertical coordinate reference system.createVerticalCS(Map<String, ?> properties, CoordinateSystemAxis axis) Creates a vertical coordinate system.createVerticalDatum(Map<String, ?> properties, VerticalDatumType type) Creates a vertical datum from an enumerated type value.Methods inherited from class AbstractFactorygetVendorMethods inherited from class Objectclone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, waitMethods inherited from interface FactorygetVendor
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Constructor Details- 
GeodeticObjectFactorypublic GeodeticObjectFactory()Constructs a factory with no default properties.
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GeodeticObjectFactoryConstructs a factory with the given default properties.GeodeticObjectFactorywill fallback on the map given to this constructor for any property not present in the map provided to acreateFoo(Map<String,?>, …)method.- Parameters:
- properties- the default properties, or- nullif none.
 
 
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Method Details- 
completeReturns the union of the givenpropertiesmap with the default properties given at construction time. Entries in the given properties map have precedence, even if their value isnull(i.e. a null value "erase" the default property value). Entries with null value after the union will be omitted.This method is invoked by all createFoo(Map<String,?>, …)methods. Subclasses can override this method if they want to add, remove or edit property values with more flexibility than constant values specified at construction time.- Parameters:
- properties- the properties supplied in a call to a- createFoo(Map, …)method.
- Returns:
- the union of the given properties with the default properties.
 
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createGeocentricCRSpublic GeocentricCRS createGeocentricCRS(Map<String, ?> properties, GeodeticDatum datum, CartesianCS cs) throws FactoryExceptionCreates a geocentric coordinate reference system from a Cartesian coordinate system. Geocentric CRS have their origin at the approximate centre of mass of the earth. An alternate method allows creation of the same kind of CRS with spherical coordinate system instead of a Cartesian one.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultGeocentricCRSinstance.- Specified by:
- createGeocentricCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- the geodetic datum to use in created CRS.
- cs- the three-dimensional Cartesian coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createCartesianCSpublic CartesianCS createCartesianCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates a three-dimensional Cartesian coordinate system from the given set of axis. This coordinate system can be used with geocentric, engineering and derived CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultCartesianCSinstance.- Specified by:
- createCartesianCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis (e.g. “Geocentric X”).
- axis1- the second axis (e.g. “Geocentric Y”).
- axis2- the third axis (e.g. “Geocentric Z”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createGeocentricCRSpublic GeocentricCRS createGeocentricCRS(Map<String, ?> properties, GeodeticDatum datum, SphericalCS cs) throws FactoryExceptionCreates a geocentric coordinate reference system from a spherical coordinate system. Geocentric CRS have their origin at the approximate centre of mass of the earth. An alternate method allows creation of the same kind of CRS with Cartesian coordinate system instead of a spherical one.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultGeocentricCRSinstance.- Specified by:
- createGeocentricCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- geodetic datum to use in created CRS.
- cs- the spherical coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createSphericalCSpublic SphericalCS createSphericalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates a spherical coordinate system from the given set of axis. This coordinate system can be used with geocentric, engineering and derived CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultSphericalCSinstance.- Specified by:
- createSphericalCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis (e.g. “Spherical latitude”).
- axis1- the second axis (e.g. “Spherical longitude”).
- axis2- the third axis (e.g. “Geocentric radius”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createGeographicCRSpublic GeographicCRS createGeographicCRS(Map<String, ?> properties, GeodeticDatum datum, EllipsoidalCS cs) throws FactoryExceptionCreates a geographic coordinate reference system. It can be (latitude, longitude) or (longitude, latitude), optionally with an ellipsoidal height.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultGeographicCRSinstance.- Specified by:
- createGeographicCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- geodetic datum to use in created CRS.
- cs- the two- or three-dimensional ellipsoidal coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createGeodeticDatumpublic GeodeticDatum createGeodeticDatum(Map<String, ?> properties, Ellipsoid ellipsoid, PrimeMeridian primeMeridian) throws FactoryExceptionCreates geodetic datum from ellipsoid and (optionally) Bursa-Wolf parameters. Geodetic datum defines the location and orientation of an ellipsoid that approximates the shape of the earth. This datum can be used with geographic, geocentric and engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultGeodeticDatuminstance.- Specified by:
- createGeodeticDatumin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- ellipsoid- the ellipsoid to use in new geodetic datum.
- primeMeridian- the prime meridian to use in new geodetic datum.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createPrimeMeridianpublic PrimeMeridian createPrimeMeridian(Map<String, ?> properties, double longitude, Unit<Angle> angularUnit) throws FactoryExceptionCreates a prime meridian, relative to Greenwich. Defines the origin from which longitude values are determined.The default implementation creates a DefaultPrimeMeridianinstance.- Specified by:
- createPrimeMeridianin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- longitude- the longitude of prime meridian in supplied angular units East of Greenwich.
- angularUnit- the angular units of longitude.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createEllipsoidalCSpublic EllipsoidalCS createEllipsoidalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) throws FactoryExceptionCreates an ellipsoidal coordinate system without ellipsoidal height. It can be (latitude, longitude) or (longitude, latitude).Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultEllipsoidalCSinstance.- Specified by:
- createEllipsoidalCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis (e.g. “Geodetic latitude”).
- axis1- the second axis (e.g. “Geodetic longitude”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createEllipsoidalCSpublic EllipsoidalCS createEllipsoidalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates an ellipsoidal coordinate system with ellipsoidal height. It can be (latitude, longitude, height) or (longitude, latitude, height).Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultEllipsoidalCSinstance.- Specified by:
- createEllipsoidalCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis (e.g. “Geodetic latitude”).
- axis1- the second axis (e.g. “Geodetic longitude”).
- axis2- the third axis (e.g. “Ellipsoidal height”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createEllipsoidpublic Ellipsoid createEllipsoid(Map<String, ?> properties, double semiMajorAxis, double semiMinorAxis, Unit<Length> unit) throws FactoryExceptionCreates an ellipsoid from semi-axis length values. The default implementation creates aDefaultEllipsoidinstance.- Specified by:
- createEllipsoidin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- semiMajorAxis- the equatorial radius in supplied linear units.
- semiMinorAxis- the polar radius in supplied linear units.
- unit- the linear units of ellipsoid axes.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createFlattenedSpherepublic Ellipsoid createFlattenedSphere(Map<String, ?> properties, double semiMajorAxis, double inverseFlattening, Unit<Length> unit) throws FactoryExceptionCreates an ellipsoid from a major semi-axis length and inverse flattening. The default implementation creates aDefaultEllipsoidinstance.- Specified by:
- createFlattenedSpherein interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- semiMajorAxis- the equatorial radius in supplied linear units.
- inverseFlattening- the eccentricity of ellipsoid.
- unit- the linear units of major axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createProjectedCRSpublic ProjectedCRS createProjectedCRS(Map<String, ?> properties, GeographicCRS baseCRS, Conversion conversion, CartesianCS derivedCS) throws FactoryExceptionCreates a projected coordinate reference system from a conversion. Projected CRS are used to approximate the shape of the earth on a planar surface in such a way that the distortion that is inherent to the approximation is controlled and known.Dependencies: the components needed by this method can be created by the following methods:The supplied- createCoordinateSystemAxis(Map, String, AxisDirection, Unit)
- createCartesianCS(Map, CoordinateSystemAxis, CoordinateSystemAxis)
- createEllipsoidalCS(Map, CoordinateSystemAxis, CoordinateSystemAxis)
- One of:
- createPrimeMeridian(Map, double, Unit)
- createGeodeticDatum(Map, Ellipsoid, PrimeMeridian)
- createGeographicCRS(Map, GeodeticDatum, EllipsoidalCS)
- DefaultCoordinateOperationFactory.createDefiningConversion(Map, OperationMethod, ParameterValueGroup)
 conversionargument shall not includes the operation steps for performing unit conversions and change of axis order since those operations will be inferred by this constructor.The default implementation creates a DefaultProjectedCRSinstance.- Specified by:
- createProjectedCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- baseCRS- the geographic coordinate reference system to base projection on.
- conversion- the defining conversion from a normalized base to a normalized derived CRS.
- derivedCS- the coordinate system for the projected CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createCartesianCSpublic CartesianCS createCartesianCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) throws FactoryExceptionCreates a two-dimensional Cartesian coordinate system from the given pair of axis. This coordinate system can be used with projected, engineering and derived CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultCartesianCSinstance.- Specified by:
- createCartesianCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis (e.g. “Easting”).
- axis1- the second axis (e.g. “Northing”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createDerivedCRSpublic DerivedCRS createDerivedCRS(Map<String, ?> properties, CoordinateReferenceSystem baseCRS, Conversion conversion, CoordinateSystem derivedCS) throws FactoryExceptionCreates a derived coordinate reference system from a conversion. The derived CRS returned by this method may also implement theGeodeticCRS,VerticalCRS,TemporalCRSorEngineeringCRSinterface depending on the type of the base CRS and the coordinate system.Dependencies: the components needed by this method can be created by the following methods:The supplied- createCoordinateSystemAxis(Map, String, AxisDirection, Unit)
- A createFooCS(…)method for Cartesian, spherical, ellipsoidal, vertical, temporal, linear, affine, polar, cylindrical or user-defined CS.
- Another createFooCRS(…)method for geocentric, geographic, vertical, temporal or engineering CRS.
- DefaultCoordinateOperationFactory.createDefiningConversion(Map, OperationMethod, ParameterValueGroup)
 conversionargument shall not includes the operation steps for performing unit conversions and change of axis order since those operations will be inferred by this constructor.The default implementation creates a DefaultDerivedCRSinstance.- Specified by:
- createDerivedCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- baseCRS- the coordinate reference system to base projection on. Shall be an instance of- SingleCRS.
- conversion- the defining conversion from a normalized base to a normalized derived CRS.
- derivedCS- the coordinate system for the derived CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createVerticalCRSpublic VerticalCRS createVerticalCRS(Map<String, ?> properties, VerticalDatum datum, VerticalCS cs) throws FactoryExceptionCreates a vertical coordinate reference system. Vertical CRSs make use of the direction of gravity to define the concept of height or depth, but the relationship with gravity may not be straightforward.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultVerticalCRSinstance.- Specified by:
- createVerticalCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- the vertical datum to use in created CRS.
- cs- the vertical coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createVerticalDatumpublic VerticalDatum createVerticalDatum(Map<String, ?> properties, VerticalDatumType type) throws FactoryExceptionCreates a vertical datum from an enumerated type value. The default implementation creates aDefaultVerticalDatuminstance.- Specified by:
- createVerticalDatumin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- type- the type of this vertical datum (often geoidal).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createVerticalCSpublic VerticalCS createVerticalCS(Map<String, ?> properties, CoordinateSystemAxis axis) throws FactoryExceptionCreates a vertical coordinate system. This coordinate system can be used with vertical and derived CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultVerticalCSinstance.- Specified by:
- createVerticalCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis- the single axis (e.g. “height” or “depth”).
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createTemporalCRSpublic TemporalCRS createTemporalCRS(Map<String, ?> properties, TemporalDatum datum, TimeCS cs) throws FactoryExceptionCreates a temporal coordinate reference system.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultTemporalCRSinstance.- Specified by:
- createTemporalCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- the temporal datum to use in created CRS.
- cs- the temporal coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createTemporalDatumpublic TemporalDatum createTemporalDatum(Map<String, ?> properties, Date origin) throws FactoryExceptionCreates a temporal datum from an enumerated type value. The default implementation creates aDefaultTemporalDatuminstance.- Specified by:
- createTemporalDatumin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- origin- the date and time origin of this temporal datum.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createTimeCSpublic TimeCS createTimeCS(Map<String, ?> properties, CoordinateSystemAxis axis) throws FactoryExceptionCreates a temporal coordinate system. This coordinate system can be used with temporal and derived CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultTimeCSinstance.- Specified by:
- createTimeCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis- the single axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createParametricCRSpublic DefaultParametricCRS createParametricCRS(Map<String, ?> properties, DefaultParametricDatum datum, DefaultParametricCS cs) throws FactoryExceptionCreates a parametric coordinate reference system. Parametric CRS can be used for physical properties or functions that vary monotonically with height. A typical example is the pressure in meteorological applications.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultParametricCRSinstance.Warning: in a future SIS version, the parameter types may be changed toorg.opengis.referencing.datum.ParametricDatumandorg.opengis.referencing.cs.ParametricCS, and the return type may be changed toorg.opengis.referencing.crs.ParametricCRS. Those change are pending GeoAPI revision.- Parameters:
- properties- name and other properties to give to the new object.
- datum- the parametric datum to use in created CRS.
- cs- the parametric coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createParametricDatumpublic DefaultParametricDatum createParametricDatum(Map<String, ?> properties) throws FactoryExceptionCreates a parametric datum. The default implementation creates aDefaultParametricDatuminstance.Warning: in a future SIS version, the return type may be changed toorg.opengis.referencing.datum.ParametricDatum. This change is pending GeoAPI revision.- Parameters:
- properties- name and other properties to give to the new object.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createParametricCSpublic DefaultParametricCS createParametricCS(Map<String, ?> properties, CoordinateSystemAxis axis) throws FactoryExceptionCreates a parametric coordinate system. This coordinate system can be used only with parametric CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultParametricCSinstance.Warning: in a future SIS version, the return type may be changed toorg.opengis.referencing.cs.ParametricCS. This change is pending GeoAPI revision.- Parameters:
- properties- name and other properties to give to the new object.
- axis- the single axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createCompoundCRSpublic CompoundCRS createCompoundCRS(Map<String, ?> properties, CoordinateReferenceSystem... components) throws FactoryExceptionCreates a compound coordinate reference system from an ordered list of CRS components. Apache SIS is permissive on the order of components that can be used in a compound CRS. However for better inter-operability, users are encouraged to follow the order mandated by ISO 19162:- A mandatory horizontal CRS (only one of two-dimensional GeographicCRSorProjectedCRSorEngineeringCRS).
- Optionally followed by a VerticalCRSor aParametricCRS(but not both).
- Optionally followed by a TemporalCRS.
 DefaultCompoundCRSinstance.- Specified by:
- createCompoundCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- components- the sequence of coordinate reference systems making the compound CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
- A mandatory horizontal CRS (only one of two-dimensional 
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createImageCRSpublic ImageCRS createImageCRS(Map<String, ?> properties, ImageDatum datum, AffineCS cs) throws FactoryExceptionCreates an image coordinate reference system. The default implementation creates aDefaultImageCRSinstance.- Specified by:
- createImageCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- the image datum to use in created CRS.
- cs- the Cartesian or oblique Cartesian coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createImageDatumpublic ImageDatum createImageDatum(Map<String, ?> properties, PixelInCell pixelInCell) throws FactoryExceptionCreates an image datum. The default implementation creates aDefaultImageDatuminstance.- Specified by:
- createImageDatumin interface- DatumFactory
- Parameters:
- properties- Name and other properties to give to the new object.
- pixelInCell- Specification of the way the image grid is associated with the image data attributes.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createAffineCSpublic AffineCS createAffineCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) throws FactoryExceptionCreates a two-dimensional affine coordinate system from the given pair of axis. This coordinate system can be used with image and engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultAffineCSinstance.- Specified by:
- createAffineCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createEngineeringCRSpublic EngineeringCRS createEngineeringCRS(Map<String, ?> properties, EngineeringDatum datum, CoordinateSystem cs) throws FactoryExceptionCreates a engineering coordinate reference system. Engineering CRS can be divided into two broad categories:- earth-fixed systems applied to engineering activities on or near the surface of the earth;
- CRSs on moving platforms such as road vehicles, vessels, aircraft, or spacecraft.
 Dependencies: the components needed by this method can be created by the following methods:The default implementation creates a- createCoordinateSystemAxis(Map, String, AxisDirection, Unit)
- A createFooCS(…)method for Cartesian, spherical, linear, affine, polar, cylindrical or user-defined CS.
- createEngineeringDatum(Map)
 DefaultEngineeringCRSinstance.- Specified by:
- createEngineeringCRSin interface- CRSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- datum- the engineering datum to use in created CRS.
- cs- the coordinate system for the created CRS.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createEngineeringDatumCreates an engineering datum. The default implementation creates aDefaultEngineeringDatuminstance.- Specified by:
- createEngineeringDatumin interface- DatumFactory
- Parameters:
- properties- name and other properties to give to the new object.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createAffineCSpublic AffineCS createAffineCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates a three-dimensional affine coordinate system from the given set of axis. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultAffineCSinstance.- Specified by:
- createAffineCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- axis2- the third axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createCylindricalCSpublic CylindricalCS createCylindricalCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates a cylindrical coordinate system from the given set of axis. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultCylindricalCSinstance.- Specified by:
- createCylindricalCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- axis2- the third axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createPolarCSpublic PolarCS createPolarCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) throws FactoryExceptionCreates a polar coordinate system from the given pair of axis. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultPolarCSinstance.- Specified by:
- createPolarCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createLinearCSpublic LinearCS createLinearCS(Map<String, ?> properties, CoordinateSystemAxis axis) throws FactoryExceptionCreates a linear coordinate system. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultLinearCSinstance.- Specified by:
- createLinearCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis- the single axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createUserDefinedCSpublic UserDefinedCS createUserDefinedCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1) throws FactoryExceptionCreates a two-dimensional user defined coordinate system from the given pair of axis. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultUserDefinedCSinstance.- Specified by:
- createUserDefinedCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createUserDefinedCSpublic UserDefinedCS createUserDefinedCS(Map<String, ?> properties, CoordinateSystemAxis axis0, CoordinateSystemAxis axis1, CoordinateSystemAxis axis2) throws FactoryExceptionCreates a three-dimensional user defined coordinate system from the given set of axis. This coordinate system can be used with engineering CRS.Dependencies: the components needed by this method can be created by the following methods:The default implementation creates aDefaultUserDefinedCSinstance.- Specified by:
- createUserDefinedCSin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- axis0- the first axis.
- axis1- the second axis.
- axis2- the third axis.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createCoordinateSystemAxispublic CoordinateSystemAxis createCoordinateSystemAxis(Map<String, ?> properties, String abbreviation, AxisDirection direction, Unit<?> unit) throws FactoryExceptionCreates a coordinate system axis from an abbreviation and a unit. Note that the axis name is constrained by ISO 19111 depending on the coordinate reference system type. See the GeoAPICoordinateSystemAxisjavadoc for more information.The default implementation creates a DefaultCoordinateSystemAxisinstance.- Specified by:
- createCoordinateSystemAxisin interface- CSFactory
- Parameters:
- properties- name and other properties to give to the new object.
- abbreviation- the coordinate axis abbreviation.
- direction- the axis direction.
- unit- the coordinate axis unit.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createFromXMLCreates a coordinate reference system object from a XML string. Note that the given argument is the XML document itself, not a URL to a XML document.The default implementation delegates to XML.unmarshal(String)- Specified by:
- createFromXMLin interface- CRSFactory
- Parameters:
- xml- coordinate reference system encoded in XML format.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
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createFromWKTCreates a Coordinate Reference System object from a Well Known Text (WKT). This method understands both version 1 (a.k.a. OGC 01-009) and version 2 (a.k.a. ISO 19162) of the WKT format.Example: below is a slightly simplified WKT 2 string for a Mercator projection. For making this example smaller, some optionalIf the given text contains non-fatal anomalies (unknown or unsupported WKT elements, inconsistent unit definitions, unparsable axis abbreviations, etc.), warnings may be reported in a logger namedUNIT[…]andORDER[…]elements have been omitted.ProjectedCRS["SIRGAS 2000 / Brazil Mercator", BaseGeodCRS["SIRGAS 2000", Datum["Sistema de Referencia Geocentrico para las Americas 2000", Ellipsoid["GRS 1980", 6378137, 298.257222101]]], Conversion["Petrobras Mercator", Method["Mercator (variant B)", Id["EPSG",9805]], Parameter["Latitude of 1st standard parallel", -2], Parameter["Longitude of natural origin", -43], Parameter["False easting", 5000000], Parameter["False northing", 10000000]], CS[cartesian,2], Axis["easting (E)", east], Axis["northing (N)", north], LengthUnit["metre", 1], Id["EPSG",5641]]"org.apache.sis.io.wkt". However, this parser does not verify if the overall parsed object matches the EPSG (or other authority) definition, since this geodetic object factory is not an authority factory. For such verification, see theCRS.fromWKT(String)convenience method.Usage and performance considerationsThe default implementation uses a shared instance ofWKTFormatwith the addition of thread-safety. This is okay for occasional use, but is sub-optimal if this method is extensively used in a multi-thread environment. Furthermore, this method offers no control on the WKT conventions in use and on the handling of warnings. Applications which need to parse a large amount of WKT strings should consider to use theWKTFormatclass instead of this method.- Specified by:
- createFromWKTin interface- CRSFactory
- Specified by:
- createFromWKTin interface- Parser
- Parameters:
- text- coordinate system encoded in Well-Known Text format (version 1 or 2).
- Returns:
- the result of parsing the given text.
- Throws:
- FactoryException- if the object creation failed.
- See Also:
 
 
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