Java Code Examples for org.apache.commons.math3.special.Gamma#lanczos()
The following examples show how to use
org.apache.commons.math3.special.Gamma#lanczos() .
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Example 1
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 2
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 3
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 4
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 5
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 6
Source File: GammaDistributionTest.java From astor with GNU General Public License v2.0 | 6 votes |
public static double logGamma(double x) { /* * This is a copy of * double Gamma.logGamma(double) * prior to MATH-849 */ double ret; if (Double.isNaN(x) || (x <= 0.0)) { ret = Double.NaN; } else { double sum = Gamma.lanczos(x); double tmp = x + Gamma.LANCZOS_G + .5; ret = ((x + .5) * FastMath.log(tmp)) - tmp + HALF_LOG_2_PI + FastMath.log(sum / x); } return ret; }
Example 7
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.logDensityPrefactor2 = FastMath.log(shape) + 0.5 * FastMath.log(aux) - FastMath.log(Gamma.lanczos(shape)); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.logDensityPrefactor1 = this.logDensityPrefactor2 - FastMath.log(scale) - FastMath.log(shiftedShape) * shape + shape + Gamma.LANCZOS_G; this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 8
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 9
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 10
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 11
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 12
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }
Example 13
Source File: GammaDistribution.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Creates a Gamma distribution. * * @param rng Random number generator. * @param shape the shape parameter * @param scale the scale parameter * @param inverseCumAccuracy the maximum absolute error in inverse * cumulative probability estimates (defaults to * {@link #DEFAULT_INVERSE_ABSOLUTE_ACCURACY}). * @throws NotStrictlyPositiveException if {@code shape <= 0} or * {@code scale <= 0}. * @since 3.1 */ public GammaDistribution(RandomGenerator rng, double shape, double scale, double inverseCumAccuracy) throws NotStrictlyPositiveException { super(rng); if (shape <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SHAPE, shape); } if (scale <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.SCALE, scale); } this.shape = shape; this.scale = scale; this.solverAbsoluteAccuracy = inverseCumAccuracy; this.shiftedShape = shape + Gamma.LANCZOS_G + 0.5; final double aux = FastMath.E / (2.0 * FastMath.PI * shiftedShape); this.densityPrefactor2 = shape * FastMath.sqrt(aux) / Gamma.lanczos(shape); this.logDensityPrefactor2 = FastMath.log(shape) + 0.5 * FastMath.log(aux) - FastMath.log(Gamma.lanczos(shape)); this.densityPrefactor1 = this.densityPrefactor2 / scale * FastMath.pow(shiftedShape, -shape) * FastMath.exp(shape + Gamma.LANCZOS_G); this.logDensityPrefactor1 = this.logDensityPrefactor2 - FastMath.log(scale) - FastMath.log(shiftedShape) * shape + shape + Gamma.LANCZOS_G; this.minY = shape + Gamma.LANCZOS_G - FastMath.log(Double.MAX_VALUE); this.maxLogY = FastMath.log(Double.MAX_VALUE) / (shape - 1.0); }