Package org.apache.commons.math3.special

Class Erf

java.lang.Object
org.apache.commons.math3.special.Erf
public class Erf extends Object
This is a utility class that provides computation methods related to the error functions.

  • Method Summary

    Modifier and Type
    Method
    Description
    static double
    erf(double x)
    Returns the error function.
    static double
    erf(double x1, double x2)
    Returns the difference between erf(x1) and erf(x2).
    static double
    erfc(double x)
    Returns the complementary error function.
    static double
    erfcInv(double x)
    Returns the inverse erfc.
    static double
    erfInv(double x)
    Returns the inverse erf.

    Methods inherited from class java.lang.Object

    clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

  • Method Details

    • erf

      public static double erf(double x)
      Returns the error function.

      erf(x) = 2/√π 0x e-t2dt

      This implementation computes erf(x) using the regularized gamma function, following Erf, equation (3)

      The value returned is always between -1 and 1 (inclusive). If abs(x) > 40, then erf(x) is indistinguishable from either 1 or -1 as a double, so the appropriate extreme value is returned.

      Parameters:
      x - the value.
      Returns:
      the error function erf(x)
      Throws:
      MaxCountExceededException - if the algorithm fails to converge.
      See Also:

    • erfc

      public static double erfc(double x)
      Returns the complementary error function.

      erfc(x) = 2/√π x e-t2dt
      = 1 - erf(x)

      This implementation computes erfc(x) using the regularized gamma function, following Erf, equation (3).

      The value returned is always between 0 and 2 (inclusive). If abs(x) > 40, then erf(x) is indistinguishable from either 0 or 2 as a double, so the appropriate extreme value is returned.

      Parameters:
      x - the value
      Returns:
      the complementary error function erfc(x)
      Throws:
      MaxCountExceededException - if the algorithm fails to converge.
      Since:
      2.2
      See Also:

    • erf

      public static double erf(double x1, double x2)
      Returns the difference between erf(x1) and erf(x2). The implementation uses either erf(double) or erfc(double) depending on which provides the most precise result.
      Parameters:
      x1 - the first value
      x2 - the second value
      Returns:
      erf(x2) - erf(x1)

    • erfInv

      public static double erfInv(double x)
      Returns the inverse erf.

      This implementation is described in the paper: Approximating the erfinv function by Mike Giles, Oxford-Man Institute of Quantitative Finance, which was published in GPU Computing Gems, volume 2, 2010. The source code is available here.

      Parameters:
      x - the value
      Returns:
      t such that x = erf(t)
      Since:
      3.2

    • erfcInv

      public static double erfcInv(double x)
      Returns the inverse erfc.
      Parameters:
      x - the value
      Returns:
      t such that x = erfc(t)
      Since:
      3.2