BicubicSplineInterpolatingFunction (Commons MATH 2.2)

java.lang.Object
- org.apache.commons.math.analysis.interpolation.BicubicSplineInterpolatingFunction

All Implemented Interfaces:

BivariateRealFunction
```
public class BicubicSplineInterpolatingFunction
extends java.lang.Object
implements BivariateRealFunction
```
Function that implements the bicubic spline interpolation.

Since:

2.1

Version:

$Revision$ $Date$

Field Summary

Fields
Modifier and Type	Field and Description
`private static double[][]`	`AINV` Matrix to compute the spline coefficients from the function values and function derivatives values
`private BivariateRealFunction[][][]`	`partialDerivatives` Partial derivatives The value of the first index determines the kind of derivatives: 0 = first partial derivatives wrt x 1 = first partial derivatives wrt y 2 = second partial derivatives wrt x 3 = second partial derivatives wrt y 4 = cross partial derivatives
`private BicubicSplineFunction[][]`	`splines` Set of cubic splines patching the whole data grid
`private double[]`	`xval` Samples x-coordinates
`private double[]`	`yval` Samples y-coordinates

Constructor Summary

Constructors
Constructor and Description
`BicubicSplineInterpolatingFunction(double[] x, double[] y, double[][] f, double[][] dFdX, double[][] dFdY, double[][] d2FdXdY)`

Method Summary

Methods
Modifier and Type	Method and Description
`private void`	`computePartialDerivatives()` Compute all partial derivatives.
`private double[]`	`computeSplineCoefficients(double[] beta)` Compute the spline coefficients from the list of function values and function partial derivatives values at the four corners of a grid element.
`private double`	`partialDerivative(int which, double x, double y)`
`double`	`partialDerivativeX(double x, double y)`
`double`	`partialDerivativeXX(double x, double y)`
`double`	`partialDerivativeXY(double x, double y)`
`double`	`partialDerivativeY(double x, double y)`
`double`	`partialDerivativeYY(double x, double y)`
`private int`	`searchIndex(double c, double[] val)`
`double`	`value(double x, double y)` Compute the value for the function.

Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

- Field Detail
  - AINV
```
private static final double[][] AINV
```
    Matrix to compute the spline coefficients from the function values and function derivatives values
  - xval
```
private final double[] xval
```
    Samples x-coordinates
  - yval
```
private final double[] yval
```
    Samples y-coordinates
  - splines
```
private final BicubicSplineFunction[][] splines
```
    Set of cubic splines patching the whole data grid
  - partialDerivatives
```
private BivariateRealFunction[][][] partialDerivatives
```
    Partial derivatives The value of the first index determines the kind of derivatives: 0 = first partial derivatives wrt x 1 = first partial derivatives wrt y 2 = second partial derivatives wrt x 3 = second partial derivatives wrt y 4 = cross partial derivatives
- Constructor Detail
  - BicubicSplineInterpolatingFunction
```
public BicubicSplineInterpolatingFunction(double[] x,
                                  double[] y,
                                  double[][] f,
                                  double[][] dFdX,
                                  double[][] dFdY,
                                  double[][] d2FdXdY)
                                   throws DimensionMismatchException
```
    Parameters:
    x - Sample values of the x-coordinate, in increasing order.
    y - Sample values of the y-coordinate, in increasing order.
    f - Values of the function on every grid point.
    dFdX - Values of the partial derivative of function with respect to x on every grid point.
    dFdY - Values of the partial derivative of function with respect to y on every grid point.
    d2FdXdY - Values of the cross partial derivative of function on every grid point.
    
    Throws:
    
    DimensionMismatchException - if the various arrays do not contain the expected number of elements.
    
    NonMonotonousSequenceException - if x or y are not strictly increasing.
    
    NoDataException - if any of the arrays has zero length.
- Method Detail
  - value
```
public double value(double x,
           double y)
```
    Compute the value for the function.
    
    Specified by:
    
    value in interface BivariateRealFunction
    
    Parameters:
    x - Abscissa for which the function value should be computed.
    y - Ordinate for which the function value should be computed.
    
    Returns:
    the value.
  - partialDerivativeX
```
public double partialDerivativeX(double x,
                        double y)
```
    Parameters:
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the first partial derivative with respect to x.
    Since:
    
    2.2
  - partialDerivativeY
```
public double partialDerivativeY(double x,
                        double y)
```
    Parameters:
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the first partial derivative with respect to y.
    Since:
    
    2.2
  - partialDerivativeXX
```
public double partialDerivativeXX(double x,
                         double y)
```
    Parameters:
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the second partial derivative with respect to x.
    Since:
    
    2.2
  - partialDerivativeYY
```
public double partialDerivativeYY(double x,
                         double y)
```
    Parameters:
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the second partial derivative with respect to y.
    Since:
    
    2.2
  - partialDerivativeXY
```
public double partialDerivativeXY(double x,
                         double y)
```
    Parameters:
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the second partial cross-derivative.
    Since:
    
    2.2
  - partialDerivative
```
private double partialDerivative(int which,
                       double x,
                       double y)
```
    Parameters:
    which - First index in partialDerivatives.
    x - x-coordinate.
    y - y-coordinate.
    
    Returns:
    the value at point (x, y) of the selected partial derivative.
    
    Throws:
    
    FunctionEvaluationException
  - computePartialDerivatives
```
private void computePartialDerivatives()
```
    Compute all partial derivatives.
  - searchIndex
```
private int searchIndex(double c,
              double[] val)
```
    Parameters:
    c - Coordinate.
    val - Coordinate samples.
    
    Returns:
    the index in val corresponding to the interval containing c, or -1 if c is out of the range defined by the end values of val.
  - computeSplineCoefficients
```
private double[] computeSplineCoefficients(double[] beta)
```
    Compute the spline coefficients from the list of function values and function partial derivatives values at the four corners of a grid element. They must be specified in the following order:
    - f(0,0)
    - f(1,0)
    - f(0,1)
    - f(1,1)
    - f_x(0,0)
    - f_x(1,0)
    - f_x(0,1)
    - f_x(1,1)
    - f_y(0,0)
    - f_y(1,0)
    - f_y(0,1)
    - f_y(1,1)
    - f_xy(0,0)
    - f_xy(1,0)
    - f_xy(0,1)
    - f_xy(1,1)
    where the subscripts indicate the partial derivative with respect to the corresponding variable(s).
    Parameters:
    beta - List of function values and function partial derivatives values.
    
    Returns:
    the spline coefficients.

Class BicubicSplineInterpolatingFunction

Field Summary

Constructor Summary

Method Summary

Methods inherited from class java.lang.Object

Field Detail

AINV

xval

yval

splines

partialDerivatives

Constructor Detail

BicubicSplineInterpolatingFunction

Method Detail

value

partialDerivativeX

partialDerivativeY

partialDerivativeXX

partialDerivativeYY

partialDerivativeXY

partialDerivative

computePartialDerivatives

searchIndex

computeSplineCoefficients