atmosphere.random

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Classes

GeneralizedHyperbolicRNG class GeneralizedHyperbolicRNG(T, UniformRNG = Random): Class to generate random observations from a generalized hyperbolic distribution using normal variance-mean mixture of generalized inverse Gaussian distribution.
GeneralizedInverseGaussianRNG class GeneralizedInverseGaussianRNG(T, UniformRNG = Random): Class to generate random observations from a generalized inverse Gaussian distribution.
GeneralizedVarianceGammaRNG class GeneralizedVarianceGammaRNG(T, UniformRNG = Random): Class to generate random observations from a generalized variance-gamma distribution using normal variance-mean mixture of generalized gamma distribution.
HyperbolicAsymmetricTRNG class HyperbolicAsymmetricTRNG(T, UniformRNG = Random): Class to generate random observations from a hyperbolic asymmetric t-distribution using normal variance-mean mixture of inverse-gamma distribution.
NormalInverseGaussianRNG class NormalInverseGaussianRNG(T, UniformRNG = Random): Class to generate random observations from a normal inverse Gaussian distribution using normal variance-mean mixture of inverse Gaussian distribution.
NormalVarianceMeanMixtureRNG class NormalVarianceMeanMixtureRNG(T, UniformRNG = Random): Class to create normal variance-mean mixture random number generators. Assume U has mixing probability density, Y ~ N(0, 1). Class constructs RNG for Z = Y*U^(1/2)+beta*U.
ProperGeneralizedHyperbolicRNG class ProperGeneralizedHyperbolicRNG(T, UniformRNG = Random): Class to generate random observations from a proper generalized hyperbolic distribution using normal variance-mean mixture of proper generalized inverse Gaussian distribution.
VarianceGammaRNG class VarianceGammaRNG(T, UniformRNG = Random): Class to generate random observations from a variance-gamma distribution using normal variance-mean mixture of gamma distribution.

Functions

rChiSquare T rChiSquare(T shape)
T rChiSquare(UniformRNG rng, T shape): Function to generate random observation from a Chi-squared distribution.
rExponential T rExponential()
T rExponential(UniformRNG rng): Function to generate random observation from standard exponential distribution.
rGamma T rGamma(T shape)
T rGamma(UniformRNG rng, T shape): Function to generate random observation from a gamma distribution.
rGeneralizedGamma T rGeneralizedGamma(T shape, T power)
T rGeneralizedGamma(UniformRNG rng, T shape, T power): Function to generate random observation from a generalized gamma distribution.
rInverseGamma T rInverseGamma(T shape)
T rInverseGamma(UniformRNG rng, T shape): Function to generate random observation from a inverse-gamma distribution.
rInverseGaussian T rInverseGaussian(T lambda, T mu)
T rInverseGaussian(UniformRNG rng, T lambda, T mu): Function to generate random observation from a inverse Gaussian distribution.
rNormal T rNormal()
T rNormal(UniformRNG rng): Function to generate random observationb from standard normal distribution.
rStudentT T rStudentT(T shape)
T rStudentT(UniformRNG rng, T shape): Function to generate random observation from a Student's t-distribution.
rWeibull T rWeibull(T shape)
T rWeibull(UniformRNG rng, T power): Function to generate random observation from a Weibull distribution.
toDistributionRNG DistributionRNG!F toDistributionRNG(Rng rng)

Interfaces

DistributionRNG interface DistributionRNG(T): Interface for infinity input range of random numbers.

Structs

GammaSRNG struct GammaSRNG(T, UniformRNG = Random): Class to generate random observations from a gamma distribution.
GeneralizedGammaSRNG struct GeneralizedGammaSRNG(T, UniformRNG = Random): Class to generate random observations from a generalized gamma distribution.
InverseGammaSRNG struct InverseGammaSRNG(T, UniformRNG = Random): Class to generate random observations from a inverse-gamma distribution.
InverseGaussianSRNG struct InverseGaussianSRNG(T, UniformRNG = Random): Class to generate random observations from a inverse Gaussian distribution.
ProperGeneralizedInverseGaussianSRNG struct ProperGeneralizedInverseGaussianSRNG(T, UniformRNG = Random): Class to generate random observations from a proper (chi > 0, psi > 0) generalized inverse Gaussian distribution. The algorithm is based on that given by Dagpunar (1989).

atmosphere.random

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