deegree 2.5 (2011/06/29 09:44 build-8-official)

Uses of Class
org.deegree.crs.coordinatesystems.GeographicCRS

Packages that use GeographicCRS
org.deegree.crs.configuration.deegree   
org.deegree.crs.configuration.gml   
org.deegree.crs.configuration.proj4   
org.deegree.crs.configuration.resources   
org.deegree.crs.coordinatesystems The coordinatesystems package holds the different coordinatesystems used by the org.deegree.crs packages. 
org.deegree.crs.projections A map projection create a 2D view of the 3D-Object 'earth', by doing so, some information is inevitably lost. 
org.deegree.crs.projections.azimuthal Azimuthal projections use a plane to project the earth onto. 
org.deegree.crs.projections.conic Conic projections use a cone (hence it's name) to project a region of the earth. 
org.deegree.crs.projections.cylindric Cylindrical projections use a cylinder (may it be oblique or not) to create projection of a region of the earth. 
 

Uses of GeographicCRS in org.deegree.crs.configuration.deegree
 

Methods in org.deegree.crs.configuration.deegree with parameters of type GeographicCRS
 Helmert CRSParser.getWGS84Transformation(GeographicCRS sourceCRS)
           
protected  Projection CRSParser.parseProjection(org.w3c.dom.Element projectionElement, GeographicCRS underlyingCRS, Unit units)
          Parses and instantiates the projection from the given element.
 

Uses of GeographicCRS in org.deegree.crs.configuration.gml
 

Methods in org.deegree.crs.configuration.gml with parameters of type GeographicCRS
 Helmert GMLFileResource.getWGS84Transformation(GeographicCRS sourceCRS)
           
protected  Projection GMLCRSProvider.parseProjection(org.w3c.dom.Element rootElement, GeographicCRS underlyingCRS)
          For now this method actually wraps all information in a gml:AbstractGeneralConversionType (or a derived subtype) into an Identifiable Object (used for the Projections).
 

Uses of GeographicCRS in org.deegree.crs.configuration.proj4
 

Methods in org.deegree.crs.configuration.proj4 with parameters of type GeographicCRS
 Helmert ProjFileResource.getWGS84Transformation(GeographicCRS sourceCRS)
           
 

Uses of GeographicCRS in org.deegree.crs.configuration.resources
 

Methods in org.deegree.crs.configuration.resources with parameters of type GeographicCRS
 Helmert CRSResource.getWGS84Transformation(GeographicCRS sourceCRS)
          Implementations should find the helmert transformation which transforms coordinates of the geodetic datum into coordinates of the WGS84 datum.
 

Uses of GeographicCRS in org.deegree.crs.coordinatesystems
 

Fields in org.deegree.crs.coordinatesystems declared as GeographicCRS
static GeographicCRS GeographicCRS.WGS84
          A geographic coordinate system using WGS84 datum.
static GeographicCRS GeographicCRS.WGS84_YX
          A geographic coordinate system using WGS84 datum.
 

Methods in org.deegree.crs.coordinatesystems that return GeographicCRS
 GeographicCRS ProjectedCRS.getGeographicCRS()
           
 

Uses of GeographicCRS in org.deegree.crs.projections
 

Methods in org.deegree.crs.projections that return GeographicCRS
 GeographicCRS Projection.getGeographicCRS()
           
 

Constructors in org.deegree.crs.projections with parameters of type GeographicCRS
Projection(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, boolean conformal, boolean equalArea, Identifiable id)
          Creates a Projection.
 

Uses of GeographicCRS in org.deegree.crs.projections.azimuthal
 

Constructors in org.deegree.crs.projections.azimuthal with parameters of type GeographicCRS
AzimuthalProjection(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, boolean conformal, boolean equalArea, Identifiable id)
           
LambertAzimuthalEqualArea(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
           
LambertAzimuthalEqualArea(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
           
LambertAzimuthalEqualArea(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
LambertAzimuthalEqualArea(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
           
StereographicAlternative(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Sets the id of this projection to epsg::9809 (Oblique Stereographic)
StereographicAlternative(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
StereographicAzimuthal(double trueScaleLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
          Create a StereographicAzimuthal which has a scale of 1 and a true scale latitude.
StereographicAzimuthal(double trueScaleLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Sets the id to "Snyder-StereoGraphic"
StereographicAzimuthal(double trueScaleLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
StereographicAzimuthal(double trueScaleLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
          Create a StereographicAzimuthal which has a scale of 1 and a true scale latitude,
StereographicAzimuthal(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
          Create a StereographicAzimuthal which is conformal, has a scale of 1 and a truescale latitude at pi*0.5.
StereographicAzimuthal(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Create a StereographicAzimuthal which has a true scale latitude at MapUtils.HALFPI.
StereographicAzimuthal(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
          Create a StereographicAzimuthal which has a true scale latitude at MapUtils.HALFPI.
StereographicAzimuthal(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
          Create a StereographicAzimuthal which is conformal, has a scale of 1 and a truescale latitude at pi*0.5.
 

Uses of GeographicCRS in org.deegree.crs.projections.conic
 

Constructors in org.deegree.crs.projections.conic with parameters of type GeographicCRS
ConicProjection(double firstParallelLatitude, double secondParallelLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, boolean conformal, boolean equalArea, Identifiable id)
           
LambertConformalConic(double firstParallelLatitude, double secondParallelLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
          Creates a Lambert Conformal projection with a intersecting cone at the given parallel latitudes. and a scale of 1.
LambertConformalConic(double firstParallelLatitude, double secondParallelLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
           
LambertConformalConic(double firstParallelLatitude, double secondParallelLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
LambertConformalConic(double firstParallelLatitude, double secondParallelLatitude, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
          Creates a Lambert Conformal projection with a intersecting cone at the given parallel latitudes. and a scale of 1.
LambertConformalConic(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
          Creates a Lambert Conformal projection with a tangential cone at the naturalOrigin.y's latitude.
LambertConformalConic(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Creates a Lambert Conformal projection with a tangential cone at the naturalOrigin.y's latitude.
LambertConformalConic(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
          Creates a Lambert Conformal projection with a tangential cone at the naturalOrigin.y's latitude.
LambertConformalConic(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
          Creates a Lambert Conformal projection with a tangential cone at the naturalOrigin.y's latitude.
 

Uses of GeographicCRS in org.deegree.crs.projections.cylindric
 

Constructors in org.deegree.crs.projections.cylindric with parameters of type GeographicCRS
CylindricalProjection(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, boolean conformal, boolean equalArea, Identifiable id)
           
Mercator(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Sets the id to EPSG:9804
Mercator(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
TransverseMercator(boolean northernHemisphere, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale)
          Sets the id to EPSG:9807
TransverseMercator(boolean northernHemisphere, GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, double scale, Identifiable id)
           
TransverseMercator(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units)
          A northern hemisphere conformal transverse mercator projection with a scale of one.
TransverseMercator(GeographicCRS geographicCRS, double falseNorthing, double falseEasting, javax.vecmath.Point2d naturalOrigin, Unit units, Identifiable id)
          A northern hemisphere conformal transverse mercator projection with a scale of one.
TransverseMercator(int zone, boolean northernHemisphere, GeographicCRS geographicCRS, Unit units)
          Sets the false-easting to 50000, false-northing to 0 or 10000000 (depending on the hemisphere), the projection-longitude is calculated from the zone and the projection-latitude is set to 0.
TransverseMercator(int zone, boolean northernHemisphere, GeographicCRS geographicCRS, Unit units, Identifiable id)
          Sets the false-easting to 50000, false-northing to 0 or 10000000 (depending on the hemisphere), the projection-longitude is calculated from the zone and the projection-latitude is set to 0.
 


deegree 2.5 (2011/06/29 09:44 build-8-official)

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