Package org.hipparchus.util
Class ContinuedFraction
- java.lang.Object
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- org.hipparchus.util.ContinuedFraction
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public abstract class ContinuedFraction extends Object
Provides a generic means to evaluate continued fractions. Subclasses simply provided the a and b coefficients to evaluate the continued fraction.References:
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Constructor Summary
Constructors Modifier Constructor Description protectedContinuedFraction()Default constructor.
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Method Summary
All Methods Instance Methods Abstract Methods Concrete Methods Modifier and Type Method Description doubleevaluate(double x)Evaluates the continued fraction at the value x.doubleevaluate(double x, double epsilon)Evaluates the continued fraction at the value x.doubleevaluate(double x, double epsilon, int maxIterations)Evaluates the continued fraction at the value x.doubleevaluate(double x, int maxIterations)Evaluates the continued fraction at the value x.protected abstract doublegetA(int n, double x)Access the n-th a coefficient of the continued fraction.protected abstract doublegetB(int n, double x)Access the n-th b coefficient of the continued fraction.
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Method Detail
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getA
protected abstract double getA(int n, double x)Access the n-th a coefficient of the continued fraction. Since a can be a function of the evaluation point, x, that is passed in as well.- Parameters:
n- the coefficient index to retrieve.x- the evaluation point.- Returns:
- the n-th a coefficient.
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getB
protected abstract double getB(int n, double x)Access the n-th b coefficient of the continued fraction. Since b can be a function of the evaluation point, x, that is passed in as well.- Parameters:
n- the coefficient index to retrieve.x- the evaluation point.- Returns:
- the n-th b coefficient.
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evaluate
public double evaluate(double x) throws MathIllegalStateExceptionEvaluates the continued fraction at the value x.- Parameters:
x- the evaluation point.- Returns:
- the value of the continued fraction evaluated at x.
- Throws:
MathIllegalStateException- if the algorithm fails to converge.
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evaluate
public double evaluate(double x, double epsilon) throws MathIllegalStateExceptionEvaluates the continued fraction at the value x.- Parameters:
x- the evaluation point.epsilon- maximum error allowed.- Returns:
- the value of the continued fraction evaluated at x.
- Throws:
MathIllegalStateException- if the algorithm fails to converge.
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evaluate
public double evaluate(double x, int maxIterations) throws MathIllegalStateExceptionEvaluates the continued fraction at the value x.- Parameters:
x- the evaluation point.maxIterations- maximum number of convergents- Returns:
- the value of the continued fraction evaluated at x.
- Throws:
MathIllegalStateException- if the algorithm fails to converge.MathIllegalStateException- if maximal number of iterations is reached
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evaluate
public double evaluate(double x, double epsilon, int maxIterations) throws MathIllegalStateExceptionEvaluates the continued fraction at the value x.The implementation of this method is based on the modified Lentz algorithm as described on page 18 ff. in:
- I. J. Thompson, A. R. Barnett. "Coulomb and Bessel Functions of Complex Arguments and Order." http://www.fresco.org.uk/papers/Thompson-JCP64p490.pdf
Note: the implementation uses the terms ai and bi as defined in Continued Fraction @ MathWorld.
- Parameters:
x- the evaluation point.epsilon- maximum error allowed.maxIterations- maximum number of convergents- Returns:
- the value of the continued fraction evaluated at x.
- Throws:
MathIllegalStateException- if the algorithm fails to converge.MathIllegalStateException- if maximal number of iterations is reached
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