Uses of Class
org.apache.sis.referencing.operation.projection.ProjectionException

Packages that use ProjectionException
Package
Description
org.apache.sis.referencing.operation.projection
Map projection implementations.

  • Uses of ProjectionException in org.apache.sis.referencing.operation.projection

    Methods in org.apache.sis.referencing.operation.projection that throw ProjectionException
    Modifier and Type
    Method
    Description
    protected void
    AlbersEqualArea.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the (θ,φ) result in dstPts.
    protected void
    AuthalicMercator.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    AzimuthalEquidistant.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    CassiniSoldner.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    CylindricalEqualArea.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    (package private) final void
    Inverter.inverseTransform(Orthographic projection, double x, double y, double[] dstPts, int dstOff)
    Computes the inverse of the given projection.
    protected void
    LambertAzimuthalEqualArea.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the (λ,φ) result in dstPts.
    protected void
    LambertConicConformal.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the (θ,φ) result in dstPts.
    protected void
    Mercator.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    ModifiedAzimuthalEquidistant.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected abstract void
    NormalizedProjection.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Inverse converts the single coordinate tuple in srcPts at the given offset and stores the result in ptDst at the given offset.
    protected void
    ObliqueMercator.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    ObliqueStereographic.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    Orthographic.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    PolarStereographic.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Converts the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    Polyconic.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Transforms the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    Polyconic.Spherical.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Transforms the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    SatelliteTracking.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Transforms the specified (x,y) coordinates and stores the result in dstPts (angles in radians).
    protected void
    TransverseMercator.inverseTransform(double[] srcPts, int srcOff, double[] dstPts, int dstOff)
    Transforms the specified (η, ξ) coordinates and stores the result in dstPts (angles in radians).
    org.opengis.referencing.operation.Matrix
    AlbersEqualArea.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (θ,φ) coordinates and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    AzimuthalEquidistant.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    CassiniSoldner.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    CylindricalEqualArea.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    LambertAzimuthalEqualArea.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    LambertConicConformal.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (θ,φ) coordinates and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    Mercator.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified coordinates (implementation-specific units) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    ModifiedAzimuthalEquidistant.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the (x,y) result in dstPts.
    org.opengis.referencing.operation.Matrix
    Mollweide.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (Λ,φ) coordinates and stores the (x,y) result in dstPts.
    abstract org.opengis.referencing.operation.Matrix
    NormalizedProjection.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects a single coordinate tuple in srcPts at the given offset and stores the result in dstPts at the given offset.
    org.opengis.referencing.operation.Matrix
    ObliqueMercator.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    ObliqueStereographic.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (Λ,φ) coordinates and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    Orthographic.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    PolarStereographic.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    Polyconic.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    SatelliteTracking.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    Sinusoidal.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    TransverseMercator.Spherical.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    org.opengis.referencing.operation.Matrix
    TransverseMercator.transform(double[] srcPts, int srcOff, double[] dstPts, int dstOff, boolean derivate)
    Projects the specified (λ,φ) coordinates (units in radians) and stores the result in dstPts.
    (package private) final double
    AuthalicConversion.φ(double sinβ)
    Computes the latitude using equation 3-18 from Snyder, followed by iterative resolution of Snyder 3-16.
    (package private) final double
    ConformalProjection.φ(double rexpΨ)
    Computes the latitude for a value closely related to the y value of a Mercator projection.