T
- type of the elements in the sample space.Serializable
public class EnumeratedDistribution<T> extends Object implements Serializable
Input probabilities must all be non-negative, but zero values are allowed and their sum does not have to equal one. Constructors will normalize input probabilities to make them sum to one.
The list of <value, probability> pairs does not, strictly speaking, have to be a function and it can contain null values. The pmf created by the constructor will combine probabilities of equal values and will treat null values as equal.
For example, if the list of pairs <"dog", 0.2>, <null, 0.1>, <"pig", 0.2>, <"dog", 0.1>, <null, 0.4> is provided to the constructor, the resulting pmf will assign mass of 0.5 to null, 0.3 to "dog" and 0.2 to null.
Constructor | Description |
---|---|
EnumeratedDistribution(List<Pair<T,Double>> pmf) |
Create an enumerated distribution using the given probability mass function
enumeration.
|
Modifier and Type | Method | Description |
---|---|---|
static double[] |
checkAndNormalize(double[] weights) |
Checks to make sure that weights is neither null nor empty and contains only non-negative, finite,
non-NaN values and if necessary normalizes it to sum to 1.
|
List<Pair<T,Double>> |
getPmf() |
Return the probability mass function as a list of (value, probability) pairs.
|
double |
probability(T x) |
For a random variable
X whose values are distributed according to
this distribution, this method returns P(X = x) . |
public EnumeratedDistribution(List<Pair<T,Double>> pmf) throws MathIllegalArgumentException
pmf
- probability mass function enumerated as a list of <T, probability>
pairs.MathIllegalArgumentException
- of weights includes negative, NaN or infinite values or only 0'spublic double probability(T 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.
Note that if x1
and x2
satisfy x1.equals(x2)
,
or both are null, then probability(x1) = probability(x2)
.
x
- the point at which the PMF is evaluatedx
public List<Pair<T,Double>> getPmf()
Note that if duplicate and / or null values were provided to the constructor when creating this EnumeratedDistribution, the returned list will contain these values. If duplicates values exist, what is returned will not represent a pmf (i.e., it is up to the caller to consolidate duplicate mass points).
public static double[] checkAndNormalize(double[] weights)
weights
- input array to be used as the basis for the values of a PMFMathIllegalArgumentException
- of weights is null or empty or includes negative, NaN or
infinite values or only 0'sCopyright © 2016–2018 Hipparchus.org. All rights reserved.