public class ZipfDistribution extends AbstractIntegerDistribution
random
Constructor and Description |
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ZipfDistribution(int numberOfElementsIn,
double exponentIn)
Create a new Zipf distribution with the given number of elements and
exponent.
|
ZipfDistribution(RandomGenerator rng,
int numberOfElementsIn,
double exponentIn)
Creates a Zipf distribution.
|
Modifier and Type | Method and Description |
---|---|
protected double |
calculateNumericalMean()
Used by
getNumericalMean() . |
protected double |
calculateNumericalVariance()
Used by
getNumericalVariance() . |
double |
cumulativeProbability(int x)
For a random variable
X whose values are distributed according
to this distribution, this method returns P(X <= x) . |
double |
getExponent()
Get the exponent characterizing the distribution.
|
int |
getNumberOfElements()
Get the number of elements (e.g. corpus size) for the distribution.
|
double |
getNumericalMean()
Use this method to get the numerical value of the mean of this
distribution.
|
double |
getNumericalVariance()
Use this method to get the numerical value of the variance of this
distribution.
|
int |
getSupportLowerBound()
Access the lower bound of the support.
|
int |
getSupportUpperBound()
Access the upper bound of the support.
|
boolean |
isSupportConnected()
Use this method to get information about whether the support is
connected, i.e. whether all integers between the lower and upper bound of
the support are included in the support.
|
double |
probability(int x)
For a random variable
X whose values are distributed according
to this distribution, this method returns P(X = x) . |
cumulativeProbability, inverseCumulativeProbability, reseedRandomGenerator, sample, sample, solveInverseCumulativeProbability
public ZipfDistribution(int numberOfElementsIn, double exponentIn)
numberOfElementsIn
- Number of elements.exponentIn
- Exponent.NotStrictlyPositiveException
- if numberOfElements <= 0
or exponent <= 0
.public ZipfDistribution(RandomGenerator rng, int numberOfElementsIn, double exponentIn)
rng
- Random number generator.numberOfElementsIn
- Number of elements.exponentIn
- Exponent.NotStrictlyPositiveException
- if numberOfElements <= 0
or exponent <= 0
.public int getNumberOfElements()
public double getExponent()
public double probability(int x)
X
whose values are distributed according
to this distribution, this method returns P(X = x)
. In other
words, this method represents the probability mass function (PMF)
for the distribution.x
- the point at which the PMF is evaluatedx
public double cumulativeProbability(int x)
X
whose values are distributed according
to this distribution, this method returns P(X <= x)
. In other
words, this method represents the (cumulative) distribution function
(CDF) for this distribution.x
- the point at which the CDF is evaluatedx
public double getNumericalMean()
N
and exponent s
, the mean is Hs1 / Hs
, where
Hs1 = generalizedHarmonic(N, s - 1)
,Hs = generalizedHarmonic(N, s)
.Double.NaN
if it is not definedprotected double calculateNumericalMean()
getNumericalMean()
.public double getNumericalVariance()
N
and exponent s
, the mean is (Hs2 / Hs) - (Hs1^2 / Hs^2)
, where
Hs2 = generalizedHarmonic(N, s - 2)
,Hs1 = generalizedHarmonic(N, s - 1)
,Hs = generalizedHarmonic(N, s)
.Double.POSITIVE_INFINITY
or Double.NaN
if it is not defined)protected double calculateNumericalVariance()
getNumericalVariance()
.public int getSupportLowerBound()
inverseCumulativeProbability(0)
. In other words, this
method must return
inf {x in Z | P(X <= x) > 0}
.
public int getSupportUpperBound()
inverseCumulativeProbability(1)
. In other words, this
method must return
inf {x in R | P(X <= x) = 1}
.
public boolean isSupportConnected()
true
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