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java.lang.Object cern.jet.random.Distributions
Contains methods for conveniently generating pseudo-random numbers from special distributions such as the Burr, Cauchy, Erlang, Geometric, Lambda, Laplace, Logistic, Weibull, etc.
About this class:
Example usage:
cern.jet.random.engine.RandomEngine generator; generator = new cern.jet.random.engine.MersenneTwister(new java.util.Date()); //generator = new edu.cornell.lassp.houle.RngPack.Ranecu(new java.util.Date()); //generator = new edu.cornell.lassp.houle.RngPack.Ranmar(new java.util.Date()); //generator = new edu.cornell.lassp.houle.RngPack.Ranlux(new java.util.Date()); //generator = AbstractDistribution.makeDefaultGenerator(); for (int i=1000000; --i >=0; ) { int cauchy = Distributions.nextCauchy(generator); ... }
MersenneTwister
,
Random
,
Math
Method Summary | |
static double |
geometricPdf(int k,
double p)
Returns the probability distribution function of the discrete geometric distribution. |
static double |
nextBurr1(double r,
int nr,
RandomEngine randomGenerator)
Returns a random number from the Burr II, VII, VIII, X Distributions. |
static double |
nextBurr2(double r,
double k,
int nr,
RandomEngine randomGenerator)
Returns a random number from the Burr III, IV, V, VI, IX, XII distributions. |
static double |
nextCauchy(RandomEngine randomGenerator)
Returns a cauchy distributed random number from the standard Cauchy distribution C(0,1). |
static double |
nextErlang(double variance,
double mean,
RandomEngine randomGenerator)
Returns an erlang distributed random number with the given variance and mean. |
static int |
nextGeometric(double p,
RandomEngine randomGenerator)
Returns a discrete geometric distributed random number; Definition. |
static double |
nextLambda(double l3,
double l4,
RandomEngine randomGenerator)
Returns a lambda distributed random number with parameters l3 and l4. |
static double |
nextLaplace(RandomEngine randomGenerator)
Returns a Laplace (Double Exponential) distributed random number from the standard Laplace distribution L(0,1). |
static double |
nextLogistic(RandomEngine randomGenerator)
Returns a random number from the standard Logistic distribution Log(0,1). |
static double |
nextPowLaw(double alpha,
double cut,
RandomEngine randomGenerator)
Returns a power-law distributed random number with the given exponent and lower cutoff. |
static double |
nextTriangular(RandomEngine randomGenerator)
Returns a random number from the standard Triangular distribution in (-1,1). |
static double |
nextWeibull(double alpha,
double beta,
RandomEngine randomGenerator)
Returns a weibull distributed random number. |
static int |
nextZipfInt(double z,
RandomEngine randomGenerator)
Returns a zipfian distributed random number with the given skew. |
Methods inherited from class java.lang.Object |
equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Method Detail |
public static double geometricPdf(int k, double p)
p(k) = p * (1-p)^k for k >= 0.
k
- the argument to the probability distribution function.p
- the parameter of the probability distribution function.public static double nextBurr1(double r, int nr, RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of burr1.c from the C-RAND / WIN-RAND library. C-RAND's implementation, in turn, is based upon
L. Devroye (1986): Non-Uniform Random Variate Generation, Springer Verlag, New York.
r
- must be > 0.nr
- the number of the burr distribution (e.g. 2,7,8,10).public static double nextBurr2(double r, double k, int nr, RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of burr2.c from the C-RAND / WIN-RAND library. C-RAND's implementation, in turn, is based upon
L. Devroye (1986): Non-Uniform Random Variate Generation, Springer Verlag, New York.
r
- must be > 0.k
- must be > 0.nr
- the number of the burr distribution (e.g. 3,4,5,6,9,12).public static double nextCauchy(RandomEngine randomGenerator)
p(x) = 1/ (mean*pi * (1+(x/mean)^2)).
Implementation: This is a port of cin.c from the C-RAND / WIN-RAND library.
public static double nextErlang(double variance, double mean, RandomEngine randomGenerator)
public static int nextGeometric(double p, RandomEngine randomGenerator)
p(k) = p * (1-p)^k for k >= 0.
Implementation: Inversion method. This is a port of geo.c from the C-RAND / WIN-RAND library.
p
- must satisfy 0 < p < 1.
public static double nextLambda(double l3, double l4, RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of lamin.c from the C-RAND / WIN-RAND library. C-RAND's implementation, in turn, is based upon
J.S. Ramberg, B:W. Schmeiser (1974): An approximate method for generating asymmetric variables, Communications ACM 17, 78-82.
public static double nextLaplace(RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of lapin.c from the C-RAND / WIN-RAND library.
public static double nextLogistic(RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of login.c from the C-RAND / WIN-RAND library.
public static double nextPowLaw(double alpha, double cut, RandomEngine randomGenerator)
alpha
- the exponentcut
- the lower cutoffpublic static double nextTriangular(RandomEngine randomGenerator)
Implementation: Inversion method. This is a port of tra.c from the C-RAND / WIN-RAND library.
public static double nextWeibull(double alpha, double beta, RandomEngine randomGenerator)
public static int nextZipfInt(double z, RandomEngine randomGenerator)
Algorithm from page 551 of: Devroye, Luc (1986) `Non-uniform random variate generation', Springer-Verlag: Berlin. ISBN 3-540-96305-7 (also 0-387-96305-7)
z
- the skew of the distribution (must be >1.0).
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