Class LambertAzimuthalEqualAreaProjection
- java.lang.Object
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- org.meteoinfo.projection.proj4j.proj.Projection
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- org.meteoinfo.projection.proj4j.proj.LambertAzimuthalEqualAreaProjection
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public class LambertAzimuthalEqualAreaProjection extends Projection
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Field Summary
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Fields inherited from class org.meteoinfo.projection.proj4j.proj.Projection
a, alpha, DTR, e, ellipsoid, EPS10, es, falseEasting, falseNorthing, fromMetres, geocentric, HALFPI, heightOfOrbit, isSouth, lonc, maxLatitude, maxLongitude, minLatitude, minLongitude, name, one_es, proj4Name, projectionLatitude, projectionLatitude1, projectionLatitude1Degrees, projectionLatitude2, projectionLatitude2Degrees, projectionLatitudeDegrees, projectionLongitude, projectionLongitudeDegrees, rone_es, RTD, scaleFactor, spherical, totalScale, trueScaleLatitude, trueScaleLatitudeDegrees, unit
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Constructor Summary
Constructors Constructor Description LambertAzimuthalEqualAreaProjection()LambertAzimuthalEqualAreaProjection(boolean south)
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description booleanhasInverse()Tests whether this projection has an inverse.voidinitialize()Initialize the projection.booleanisEqualArea()Returns true if this projection is equal areaProjCoordinateproject(double lplam, double lpphi, ProjCoordinate out)Computes the projection of a given point (i.e.voidproject_e(double lplam, double lpphi, ProjCoordinate out)voidproject_s(double lplam, double lpphi, ProjCoordinate out)ProjCoordinateprojectInverse(double xyx, double xyy, ProjCoordinate out)Computes the inverse projection of a given point (i.e.voidprojectInverse_e(double xyx, double xyy, ProjCoordinate out)voidprojectInverse_s(double xyx, double xyy, ProjCoordinate out)java.lang.StringtoString()-
Methods inherited from class java.lang.Object
equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait
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Methods inherited from class org.meteoinfo.projection.proj4j.proj.Projection
clone, getAlpha, getEllipsoid, getEPSGCode, getEquatorRadius, getFalseEasting, getFalseNorthing, getFromMetres, getHeightOfOrbit, getLonC, getMaxLatitude, getMaxLatitudeDegrees, getMaxLongitude, getMaxLongitudeDegrees, getMinLatitude, getMinLatitudeDegrees, getMinLongitude, getMinLongitudeDegrees, getName, getPROJ4Description, getProj4Name, getProjectionLatitude, getProjectionLatitude1, getProjectionLatitude1Degrees, getProjectionLatitude2, getProjectionLatitude2Degrees, getProjectionLatitudeDegrees, getProjectionLongitude, getProjectionLongitudeDegrees, getScaleFactor, getSouthernHemisphere, getTrueScaleLatitude, getTrueScaleLatitudeDegrees, inside, inverseProject, inverseProjectRadians, isConformal, isEqual, isRectilinear, normalizeLongitude, normalizeLongitudeRadians, parallelsAreParallel, project, projectRadians, setAlphaDegrees, setEllipsoid, setFalseEasting, setFalseNorthing, setFromMetres, setHeightOfOrbit, setLonCDegrees, setMaxLatitude, setMaxLongitude, setMaxLongitudeDegrees, setMinLatitude, setMinLongitude, setMinLongitudeDegrees, setName, setProjectionLatitude, setProjectionLatitude1, setProjectionLatitude1Degrees, setProjectionLatitude2, setProjectionLatitude2Degrees, setProjectionLatitudeDegrees, setProjectionLongitude, setProjectionLongitudeDegrees, setScaleFactor, setSouthernHemisphere, setTrueScaleLatitude, setTrueScaleLatitudeDegrees, setUnits
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Method Detail
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initialize
public void initialize()
Description copied from class:ProjectionInitialize the projection. This should be called after setting parameters and before using the projection. This is for performance reasons as initialization may be expensive.- Overrides:
initializein classProjection
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project
public ProjCoordinate project(double lplam, double lpphi, ProjCoordinate out)
Description copied from class:ProjectionComputes the projection of a given point (i.e. from geographics to projection space). This should be overridden for all projections.- Overrides:
projectin classProjection- Parameters:
lplam- the geographic x ordinate (in radians)lpphi- the geographic y ordinatee (in radians)out- the projected coordinate (in coordinate system units)- Returns:
- the target coordinate
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project_s
public void project_s(double lplam, double lpphi, ProjCoordinate out)
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project_e
public void project_e(double lplam, double lpphi, ProjCoordinate out)
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projectInverse
public ProjCoordinate projectInverse(double xyx, double xyy, ProjCoordinate out)
Description copied from class:ProjectionComputes the inverse projection of a given point (i.e. from projection space to geographics). This should be overridden for all projections.- Overrides:
projectInversein classProjection- Parameters:
xyx- the projected x ordinate (in coordinate system units)xyy- the projected y ordinate (in coordinate system units)out- the inverse-projected geographic coordinate (in radians)- Returns:
- the target coordinate
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projectInverse_s
public void projectInverse_s(double xyx, double xyy, ProjCoordinate out)
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projectInverse_e
public void projectInverse_e(double xyx, double xyy, ProjCoordinate out)
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isEqualArea
public boolean isEqualArea()
Returns true if this projection is equal area- Overrides:
isEqualAreain classProjection- Returns:
- true if this projection is equal-area
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hasInverse
public boolean hasInverse()
Description copied from class:ProjectionTests whether this projection has an inverse. If this method returns true then theProjection.inverseProject(ProjCoordinate, ProjCoordinate)andProjection.inverseProjectRadians(ProjCoordinate, ProjCoordinate)methods will return meaningful results.- Overrides:
hasInversein classProjection- Returns:
- true if this projection has an inverse
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toString
public java.lang.String toString()
- Overrides:
toStringin classProjection
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