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The Apache Commons Math project is a library of lightweight, self-contained mathematics and statistics components addressing the most common practical problems not immediately available in the Java programming language or commons-lang.

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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
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package org.apache.commons.math3.distribution;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;

import org.apache.commons.math3.exception.DimensionMismatchException;
import org.apache.commons.math3.exception.MathArithmeticException;
import org.apache.commons.math3.exception.NotANumberException;
import org.apache.commons.math3.exception.NotFiniteNumberException;
import org.apache.commons.math3.exception.NotPositiveException;
import org.apache.commons.math3.random.RandomGenerator;
import org.apache.commons.math3.random.Well19937c;
import org.apache.commons.math3.util.Pair;

/**
 * 

Implementation of an integer-valued {@link EnumeratedDistribution}.

* *

Values with zero-probability are allowed but they do not extend the * support.
* Duplicate values are allowed. Probabilities of duplicate values are combined * when computing cumulative probabilities and statistics.

* * @since 3.2 */ public class EnumeratedIntegerDistribution extends AbstractIntegerDistribution { /** Serializable UID. */ private static final long serialVersionUID = 20130308L; /** * {@link EnumeratedDistribution} instance (using the {@link Integer} wrapper) * used to generate the pmf. */ protected final EnumeratedDistribution innerDistribution; /** * Create a discrete distribution using the given probability mass function * definition. *

* Note: this constructor will implicitly create an instance of * {@link Well19937c} as random generator to be used for sampling only (see * {@link #sample()} and {@link #sample(int)}). In case no sampling is * needed for the created distribution, it is advised to pass {@code null} * as random generator via the appropriate constructors to avoid the * additional initialisation overhead. * * @param singletons array of random variable values. * @param probabilities array of probabilities. * @throws DimensionMismatchException if * {@code singletons.length != probabilities.length} * @throws NotPositiveException if any of the probabilities are negative. * @throws NotFiniteNumberException if any of the probabilities are infinite. * @throws NotANumberException if any of the probabilities are NaN. * @throws MathArithmeticException all of the probabilities are 0. */ public EnumeratedIntegerDistribution(final int[] singletons, final double[] probabilities) throws DimensionMismatchException, NotPositiveException, MathArithmeticException, NotFiniteNumberException, NotANumberException{ this(new Well19937c(), singletons, probabilities); } /** * Create a discrete distribution using the given random number generator * and probability mass function definition. * * @param rng random number generator. * @param singletons array of random variable values. * @param probabilities array of probabilities. * @throws DimensionMismatchException if * {@code singletons.length != probabilities.length} * @throws NotPositiveException if any of the probabilities are negative. * @throws NotFiniteNumberException if any of the probabilities are infinite. * @throws NotANumberException if any of the probabilities are NaN. * @throws MathArithmeticException all of the probabilities are 0. */ public EnumeratedIntegerDistribution(final RandomGenerator rng, final int[] singletons, final double[] probabilities) throws DimensionMismatchException, NotPositiveException, MathArithmeticException, NotFiniteNumberException, NotANumberException { super(rng); innerDistribution = new EnumeratedDistribution( rng, createDistribution(singletons, probabilities)); } /** * Create a discrete integer-valued distribution from the input data. Values are assigned * mass based on their frequency. * * @param rng random number generator used for sampling * @param data input dataset * @since 3.6 */ public EnumeratedIntegerDistribution(final RandomGenerator rng, final int[] data) { super(rng); final Map dataMap = new HashMap(); for (int value : data) { Integer count = dataMap.get(value); if (count == null) { count = 0; } dataMap.put(value, ++count); } final int massPoints = dataMap.size(); final double denom = data.length; final int[] values = new int[massPoints]; final double[] probabilities = new double[massPoints]; int index = 0; for (Entry entry : dataMap.entrySet()) { values[index] = entry.getKey(); probabilities[index] = entry.getValue().intValue() / denom; index++; } innerDistribution = new EnumeratedDistribution(rng, createDistribution(values, probabilities)); } /** * Create a discrete integer-valued distribution from the input data. Values are assigned * mass based on their frequency. For example, [0,1,1,2] as input creates a distribution * with values 0, 1 and 2 having probability masses 0.25, 0.5 and 0.25 respectively, * * @param data input dataset * @since 3.6 */ public EnumeratedIntegerDistribution(final int[] data) { this(new Well19937c(), data); } /** * Create the list of Pairs representing the distribution from singletons and probabilities. * * @param singletons values * @param probabilities probabilities * @return list of value/probability pairs */ private static List> createDistribution(int[] singletons, double[] probabilities) { if (singletons.length != probabilities.length) { throw new DimensionMismatchException(probabilities.length, singletons.length); } final List> samples = new ArrayList>(singletons.length); for (int i = 0; i < singletons.length; i++) { samples.add(new Pair(singletons[i], probabilities[i])); } return samples; } /** * {@inheritDoc} */ public double probability(final int x) { return innerDistribution.probability(x); } /** * {@inheritDoc} */ public double cumulativeProbability(final int x) { double probability = 0; for (final Pair sample : innerDistribution.getPmf()) { if (sample.getKey() <= x) { probability += sample.getValue(); } } return probability; } /** * {@inheritDoc} * * @return {@code sum(singletons[i] * probabilities[i])} */ public double getNumericalMean() { double mean = 0; for (final Pair sample : innerDistribution.getPmf()) { mean += sample.getValue() * sample.getKey(); } return mean; } /** * {@inheritDoc} * * @return {@code sum((singletons[i] - mean) ^ 2 * probabilities[i])} */ public double getNumericalVariance() { double mean = 0; double meanOfSquares = 0; for (final Pair sample : innerDistribution.getPmf()) { mean += sample.getValue() * sample.getKey(); meanOfSquares += sample.getValue() * sample.getKey() * sample.getKey(); } return meanOfSquares - mean * mean; } /** * {@inheritDoc} * * Returns the lowest value with non-zero probability. * * @return the lowest value with non-zero probability. */ public int getSupportLowerBound() { int min = Integer.MAX_VALUE; for (final Pair sample : innerDistribution.getPmf()) { if (sample.getKey() < min && sample.getValue() > 0) { min = sample.getKey(); } } return min; } /** * {@inheritDoc} * * Returns the highest value with non-zero probability. * * @return the highest value with non-zero probability. */ public int getSupportUpperBound() { int max = Integer.MIN_VALUE; for (final Pair sample : innerDistribution.getPmf()) { if (sample.getKey() > max && sample.getValue() > 0) { max = sample.getKey(); } } return max; } /** * {@inheritDoc} * * The support of this distribution is connected. * * @return {@code true} */ public boolean isSupportConnected() { return true; } /** * {@inheritDoc} */ @Override public int sample() { return innerDistribution.sample(); } }





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