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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
 * limitations under the License.
 */
package org.apache.commons.math3.util;

import java.io.Serializable;
import java.util.Arrays;

import org.apache.commons.math3.exception.MathIllegalArgumentException;
import org.apache.commons.math3.exception.MathIllegalStateException;
import org.apache.commons.math3.exception.MathInternalError;
import org.apache.commons.math3.exception.NullArgumentException;
import org.apache.commons.math3.exception.NotStrictlyPositiveException;
import org.apache.commons.math3.exception.NumberIsTooSmallException;
import org.apache.commons.math3.exception.util.LocalizedFormats;

/**
 * 

* A variable length {@link DoubleArray} implementation that automatically * handles expanding and contracting its internal storage array as elements * are added and removed. *

*

Important note: Usage should not assume that this class is thread-safe * even though some of the methods are {@code synchronized}. * This qualifier will be dropped in the next major release (4.0).

*

* The internal storage array starts with capacity determined by the * {@code initialCapacity} property, which can be set by the constructor. * The default initial capacity is 16. Adding elements using * {@link #addElement(double)} appends elements to the end of the array. * When there are no open entries at the end of the internal storage array, * the array is expanded. The size of the expanded array depends on the * {@code expansionMode} and {@code expansionFactor} properties. * The {@code expansionMode} determines whether the size of the array is * multiplied by the {@code expansionFactor} * ({@link ExpansionMode#MULTIPLICATIVE}) or if the expansion is additive * ({@link ExpansionMode#ADDITIVE} -- {@code expansionFactor} storage * locations added). * The default {@code expansionMode} is {@code MULTIPLICATIVE} and the default * {@code expansionFactor} is 2. *

*

* The {@link #addElementRolling(double)} method adds a new element to the end * of the internal storage array and adjusts the "usable window" of the * internal array forward by one position (effectively making what was the * second element the first, and so on). Repeated activations of this method * (or activation of {@link #discardFrontElements(int)}) will effectively orphan * the storage locations at the beginning of the internal storage array. To * reclaim this storage, each time one of these methods is activated, the size * of the internal storage array is compared to the number of addressable * elements (the {@code numElements} property) and if the difference * is too large, the internal array is contracted to size * {@code numElements + 1}. The determination of when the internal * storage array is "too large" depends on the {@code expansionMode} and * {@code contractionFactor} properties. If the {@code expansionMode} * is {@code MULTIPLICATIVE}, contraction is triggered when the * ratio between storage array length and {@code numElements} exceeds * {@code contractionFactor.} If the {@code expansionMode} * is {@code ADDITIVE}, the number of excess storage locations * is compared to {@code contractionFactor}. *

*

* To avoid cycles of expansions and contractions, the * {@code expansionFactor} must not exceed the {@code contractionFactor}. * Constructors and mutators for both of these properties enforce this * requirement, throwing a {@code MathIllegalArgumentException} if it is * violated. *

*/ public class ResizableDoubleArray implements DoubleArray, Serializable { /** Additive expansion mode. * @deprecated As of 3.1. Please use {@link ExpansionMode#ADDITIVE} instead. */ @Deprecated public static final int ADDITIVE_MODE = 1; /** Multiplicative expansion mode. * @deprecated As of 3.1. Please use {@link ExpansionMode#MULTIPLICATIVE} instead. */ @Deprecated public static final int MULTIPLICATIVE_MODE = 0; /** Serializable version identifier. */ private static final long serialVersionUID = -3485529955529426875L; /** Default value for initial capacity. */ private static final int DEFAULT_INITIAL_CAPACITY = 16; /** Default value for array size modifier. */ private static final double DEFAULT_EXPANSION_FACTOR = 2.0; /** * Default value for the difference between {@link #contractionCriterion} * and {@link #expansionFactor}. */ private static final double DEFAULT_CONTRACTION_DELTA = 0.5; /** * The contraction criteria determines when the internal array will be * contracted to fit the number of elements contained in the element * array + 1. */ private double contractionCriterion = 2.5; /** * The expansion factor of the array. When the array needs to be expanded, * the new array size will be * {@code internalArray.length * expansionFactor} * if {@code expansionMode} is set to MULTIPLICATIVE_MODE, or * {@code internalArray.length + expansionFactor} if * {@code expansionMode} is set to ADDITIVE_MODE. */ private double expansionFactor = 2.0; /** * Determines whether array expansion by {@code expansionFactor} * is additive or multiplicative. */ private ExpansionMode expansionMode = ExpansionMode.MULTIPLICATIVE; /** * The internal storage array. */ private double[] internalArray; /** * The number of addressable elements in the array. Note that this * has nothing to do with the length of the internal storage array. */ private int numElements = 0; /** * The position of the first addressable element in the internal storage * array. The addressable elements in the array are * {@code internalArray[startIndex],...,internalArray[startIndex + numElements - 1]}. */ private int startIndex = 0; /** * Specification of expansion algorithm. * @since 3.1 */ public enum ExpansionMode { /** Multiplicative expansion mode. */ MULTIPLICATIVE, /** Additive expansion mode. */ ADDITIVE } /** * Creates an instance with default properties. *
    *
  • {@code initialCapacity = 16}
  • *
  • {@code expansionMode = MULTIPLICATIVE}
  • *
  • {@code expansionFactor = 2.0}
  • *
  • {@code contractionCriterion = 2.5}
  • *
*/ public ResizableDoubleArray() { this(DEFAULT_INITIAL_CAPACITY); } /** * Creates an instance with the specified initial capacity. * Other properties take default values: *
    *
  • {@code expansionMode = MULTIPLICATIVE}
  • *
  • {@code expansionFactor = 2.0}
  • *
  • {@code contractionCriterion = 2.5}
  • *
* @param initialCapacity Initial size of the internal storage array. * @throws MathIllegalArgumentException if {@code initialCapacity <= 0}. */ public ResizableDoubleArray(int initialCapacity) throws MathIllegalArgumentException { this(initialCapacity, DEFAULT_EXPANSION_FACTOR); } /** * Creates an instance from an existing {@code double[]} with the * initial capacity and numElements corresponding to the size of * the supplied {@code double[]} array. * If the supplied array is null, a new empty array with the default * initial capacity will be created. * The input array is copied, not referenced. * Other properties take default values: *
    *
  • {@code initialCapacity = 16}
  • *
  • {@code expansionMode = MULTIPLICATIVE}
  • *
  • {@code expansionFactor = 2.0}
  • *
  • {@code contractionCriterion = 2.5}
  • *
* * @param initialArray initial array * @since 2.2 */ public ResizableDoubleArray(double[] initialArray) { this(DEFAULT_INITIAL_CAPACITY, DEFAULT_EXPANSION_FACTOR, DEFAULT_CONTRACTION_DELTA + DEFAULT_EXPANSION_FACTOR, ExpansionMode.MULTIPLICATIVE, initialArray); } /** * Creates an instance with the specified initial capacity * and expansion factor. * The remaining properties take default values: *
    *
  • {@code expansionMode = MULTIPLICATIVE}
  • *
  • {@code contractionCriterion = 0.5 + expansionFactor}
  • *
*
* Throws IllegalArgumentException if the following conditions are * not met: *
    *
  • {@code initialCapacity > 0}
  • *
  • {@code expansionFactor > 1}
  • *
* * @param initialCapacity Initial size of the internal storage array. * @param expansionFactor The array will be expanded based on this * parameter. * @throws MathIllegalArgumentException if parameters are not valid. * @deprecated As of 3.1. Please use * {@link #ResizableDoubleArray(int,double)} instead. */ @Deprecated public ResizableDoubleArray(int initialCapacity, float expansionFactor) throws MathIllegalArgumentException { this(initialCapacity, (double) expansionFactor); } /** * Creates an instance with the specified initial capacity * and expansion factor. * The remaining properties take default values: *
    *
  • {@code expansionMode = MULTIPLICATIVE}
  • *
  • {@code contractionCriterion = 0.5 + expansionFactor}
  • *
*
* Throws IllegalArgumentException if the following conditions are * not met: *
    *
  • {@code initialCapacity > 0}
  • *
  • {@code expansionFactor > 1}
  • *
* * @param initialCapacity Initial size of the internal storage array. * @param expansionFactor The array will be expanded based on this * parameter. * @throws MathIllegalArgumentException if parameters are not valid. * @since 3.1 */ public ResizableDoubleArray(int initialCapacity, double expansionFactor) throws MathIllegalArgumentException { this(initialCapacity, expansionFactor, DEFAULT_CONTRACTION_DELTA + expansionFactor); } /** * Creates an instance with the specified initialCapacity, * expansionFactor, and contractionCriterion. * The expansion mode will default to {@code MULTIPLICATIVE}. *
* Throws IllegalArgumentException if the following conditions are * not met: *
    *
  • {@code initialCapacity > 0}
  • *
  • {@code expansionFactor > 1}
  • *
  • {@code contractionCriterion >= expansionFactor}
  • *
* * @param initialCapacity Initial size of the internal storage array.. * @param expansionFactor The array will be expanded based on this * parameter. * @param contractionCriteria Contraction criteria. * @throws MathIllegalArgumentException if parameters are not valid. * @deprecated As of 3.1. Please use * {@link #ResizableDoubleArray(int,double,double)} instead. */ @Deprecated public ResizableDoubleArray(int initialCapacity, float expansionFactor, float contractionCriteria) throws MathIllegalArgumentException { this(initialCapacity, (double) expansionFactor, (double) contractionCriteria); } /** * Creates an instance with the specified initial capacity, * expansion factor, and contraction criteria. * The expansion mode will default to {@code MULTIPLICATIVE}. *
* Throws IllegalArgumentException if the following conditions are * not met: *
    *
  • {@code initialCapacity > 0}
  • *
  • {@code expansionFactor > 1}
  • *
  • {@code contractionCriterion >= expansionFactor}
  • *
* * @param initialCapacity Initial size of the internal storage array.. * @param expansionFactor The array will be expanded based on this * parameter. * @param contractionCriterion Contraction criterion. * @throws MathIllegalArgumentException if the parameters are not valid. * @since 3.1 */ public ResizableDoubleArray(int initialCapacity, double expansionFactor, double contractionCriterion) throws MathIllegalArgumentException { this(initialCapacity, expansionFactor, contractionCriterion, ExpansionMode.MULTIPLICATIVE, null); } /** *

* Create a ResizableArray with the specified properties.

*

* Throws IllegalArgumentException if the following conditions are * not met: *

    *
  • initialCapacity > 0
  • *
  • expansionFactor > 1
  • *
  • contractionFactor >= expansionFactor
  • *
  • expansionMode in {MULTIPLICATIVE_MODE, ADDITIVE_MODE} *
  • *

* * @param initialCapacity the initial size of the internal storage array * @param expansionFactor the array will be expanded based on this * parameter * @param contractionCriteria the contraction Criteria * @param expansionMode the expansion mode * @throws MathIllegalArgumentException if parameters are not valid * @deprecated As of 3.1. Please use * {@link #ResizableDoubleArray(int,double,double,ExpansionMode,double[])} * instead. */ @Deprecated public ResizableDoubleArray(int initialCapacity, float expansionFactor, float contractionCriteria, int expansionMode) throws MathIllegalArgumentException { this(initialCapacity, expansionFactor, contractionCriteria, expansionMode == ADDITIVE_MODE ? ExpansionMode.ADDITIVE : ExpansionMode.MULTIPLICATIVE, null); // XXX Just ot retain the expected failure in a unit test. // With the new "enum", that test will become obsolete. setExpansionMode(expansionMode); } /** * Creates an instance with the specified properties. *
* Throws MathIllegalArgumentException if the following conditions are * not met: *
    *
  • {@code initialCapacity > 0}
  • *
  • {@code expansionFactor > 1}
  • *
  • {@code contractionCriterion >= expansionFactor}
  • *
* * @param initialCapacity Initial size of the internal storage array. * @param expansionFactor The array will be expanded based on this * parameter. * @param contractionCriterion Contraction criteria. * @param expansionMode Expansion mode. * @param data Initial contents of the array. * @throws MathIllegalArgumentException if the parameters are not valid. */ public ResizableDoubleArray(int initialCapacity, double expansionFactor, double contractionCriterion, ExpansionMode expansionMode, double ... data) throws MathIllegalArgumentException { if (initialCapacity <= 0) { throw new NotStrictlyPositiveException(LocalizedFormats.INITIAL_CAPACITY_NOT_POSITIVE, initialCapacity); } checkContractExpand(contractionCriterion, expansionFactor); this.expansionFactor = expansionFactor; this.contractionCriterion = contractionCriterion; this.expansionMode = expansionMode; internalArray = new double[initialCapacity]; numElements = 0; startIndex = 0; if (data != null && data.length > 0) { addElements(data); } } /** * Copy constructor. Creates a new ResizableDoubleArray that is a deep, * fresh copy of the original. Needs to acquire synchronization lock * on original. Original may not be null; otherwise a {@link NullArgumentException} * is thrown. * * @param original array to copy * @exception NullArgumentException if original is null * @since 2.0 */ public ResizableDoubleArray(ResizableDoubleArray original) throws NullArgumentException { MathUtils.checkNotNull(original); copy(original, this); } /** * Adds an element to the end of this expandable array. * * @param value Value to be added to end of array. */ public synchronized void addElement(double value) { if (internalArray.length <= startIndex + numElements) { expand(); } internalArray[startIndex + numElements++] = value; } /** * Adds several element to the end of this expandable array. * * @param values Values to be added to end of array. * @since 2.2 */ public synchronized void addElements(double[] values) { final double[] tempArray = new double[numElements + values.length + 1]; System.arraycopy(internalArray, startIndex, tempArray, 0, numElements); System.arraycopy(values, 0, tempArray, numElements, values.length); internalArray = tempArray; startIndex = 0; numElements += values.length; } /** *

* Adds an element to the end of the array and removes the first * element in the array. Returns the discarded first element. * The effect is similar to a push operation in a FIFO queue. *

*

* Example: If the array contains the elements 1, 2, 3, 4 (in that order) * and addElementRolling(5) is invoked, the result is an array containing * the entries 2, 3, 4, 5 and the value returned is 1. *

* * @param value Value to be added to the array. * @return the value which has been discarded or "pushed" out of the array * by this rolling insert. */ public synchronized double addElementRolling(double value) { double discarded = internalArray[startIndex]; if ((startIndex + (numElements + 1)) > internalArray.length) { expand(); } // Increment the start index startIndex += 1; // Add the new value internalArray[startIndex + (numElements - 1)] = value; // Check the contraction criterion. if (shouldContract()) { contract(); } return discarded; } /** * Substitutes value for the most recently added value. * Returns the value that has been replaced. If the array is empty (i.e. * if {@link #numElements} is zero), an IllegalStateException is thrown. * * @param value New value to substitute for the most recently added value * @return the value that has been replaced in the array. * @throws MathIllegalStateException if the array is empty * @since 2.0 */ public synchronized double substituteMostRecentElement(double value) throws MathIllegalStateException { if (numElements < 1) { throw new MathIllegalStateException( LocalizedFormats.CANNOT_SUBSTITUTE_ELEMENT_FROM_EMPTY_ARRAY); } final int substIndex = startIndex + (numElements - 1); final double discarded = internalArray[substIndex]; internalArray[substIndex] = value; return discarded; } /** * Checks the expansion factor and the contraction criterion and throws an * IllegalArgumentException if the contractionCriteria is less than the * expansionCriteria * * @param expansion factor to be checked * @param contraction criteria to be checked * @throws MathIllegalArgumentException if the contractionCriteria is less than * the expansionCriteria. * @deprecated As of 3.1. Please use * {@link #checkContractExpand(double,double)} instead. */ @Deprecated protected void checkContractExpand(float contraction, float expansion) throws MathIllegalArgumentException { checkContractExpand((double) contraction, (double) expansion); } /** * Checks the expansion factor and the contraction criterion and raises * an exception if the contraction criterion is smaller than the * expansion criterion. * * @param contraction Criterion to be checked. * @param expansion Factor to be checked. * @throws NumberIsTooSmallException if {@code contraction < expansion}. * @throws NumberIsTooSmallException if {@code contraction <= 1}. * @throws NumberIsTooSmallException if {@code expansion <= 1 }. * @since 3.1 */ protected void checkContractExpand(double contraction, double expansion) throws NumberIsTooSmallException { if (contraction < expansion) { final NumberIsTooSmallException e = new NumberIsTooSmallException(contraction, 1, true); e.getContext().addMessage(LocalizedFormats.CONTRACTION_CRITERIA_SMALLER_THAN_EXPANSION_FACTOR, contraction, expansion); throw e; } if (contraction <= 1) { final NumberIsTooSmallException e = new NumberIsTooSmallException(contraction, 1, false); e.getContext().addMessage(LocalizedFormats.CONTRACTION_CRITERIA_SMALLER_THAN_ONE, contraction); throw e; } if (expansion <= 1) { final NumberIsTooSmallException e = new NumberIsTooSmallException(contraction, 1, false); e.getContext().addMessage(LocalizedFormats.EXPANSION_FACTOR_SMALLER_THAN_ONE, expansion); throw e; } } /** * Clear the array contents, resetting the number of elements to zero. */ public synchronized void clear() { numElements = 0; startIndex = 0; } /** * Contracts the storage array to the (size of the element set) + 1 - to * avoid a zero length array. This function also resets the startIndex to * zero. */ public synchronized void contract() { final double[] tempArray = new double[numElements + 1]; // Copy and swap - copy only the element array from the src array. System.arraycopy(internalArray, startIndex, tempArray, 0, numElements); internalArray = tempArray; // Reset the start index to zero startIndex = 0; } /** * Discards the i initial elements of the array. For example, * if the array contains the elements 1,2,3,4, invoking * discardFrontElements(2) will cause the first two elements * to be discarded, leaving 3,4 in the array. Throws illegalArgumentException * if i exceeds numElements. * * @param i the number of elements to discard from the front of the array * @throws MathIllegalArgumentException if i is greater than numElements. * @since 2.0 */ public synchronized void discardFrontElements(int i) throws MathIllegalArgumentException { discardExtremeElements(i,true); } /** * Discards the i last elements of the array. For example, * if the array contains the elements 1,2,3,4, invoking * discardMostRecentElements(2) will cause the last two elements * to be discarded, leaving 1,2 in the array. Throws illegalArgumentException * if i exceeds numElements. * * @param i the number of elements to discard from the end of the array * @throws MathIllegalArgumentException if i is greater than numElements. * @since 2.0 */ public synchronized void discardMostRecentElements(int i) throws MathIllegalArgumentException { discardExtremeElements(i,false); } /** * Discards the i first or last elements of the array, * depending on the value of front. * For example, if the array contains the elements 1,2,3,4, invoking * discardExtremeElements(2,false) will cause the last two elements * to be discarded, leaving 1,2 in the array. * For example, if the array contains the elements 1,2,3,4, invoking * discardExtremeElements(2,true) will cause the first two elements * to be discarded, leaving 3,4 in the array. * Throws illegalArgumentException * if i exceeds numElements. * * @param i the number of elements to discard from the front/end of the array * @param front true if elements are to be discarded from the front * of the array, false if elements are to be discarded from the end * of the array * @throws MathIllegalArgumentException if i is greater than numElements. * @since 2.0 */ private synchronized void discardExtremeElements(int i, boolean front) throws MathIllegalArgumentException { if (i > numElements) { throw new MathIllegalArgumentException( LocalizedFormats.TOO_MANY_ELEMENTS_TO_DISCARD_FROM_ARRAY, i, numElements); } else if (i < 0) { throw new MathIllegalArgumentException( LocalizedFormats.CANNOT_DISCARD_NEGATIVE_NUMBER_OF_ELEMENTS, i); } else { // "Subtract" this number of discarded from numElements numElements -= i; if (front) { startIndex += i; } } if (shouldContract()) { contract(); } } /** * Expands the internal storage array using the expansion factor. *

* if expansionMode is set to MULTIPLICATIVE_MODE, * the new array size will be internalArray.length * expansionFactor. * If expansionMode is set to ADDITIVE_MODE, the length * after expansion will be internalArray.length + expansionFactor *

*/ protected synchronized void expand() { // notice the use of FastMath.ceil(), this guarantees that we will always // have an array of at least currentSize + 1. Assume that the // current initial capacity is 1 and the expansion factor // is 1.000000000000000001. The newly calculated size will be // rounded up to 2 after the multiplication is performed. int newSize = 0; if (expansionMode == ExpansionMode.MULTIPLICATIVE) { newSize = (int) FastMath.ceil(internalArray.length * expansionFactor); } else { newSize = (int) (internalArray.length + FastMath.round(expansionFactor)); } final double[] tempArray = new double[newSize]; // Copy and swap System.arraycopy(internalArray, 0, tempArray, 0, internalArray.length); internalArray = tempArray; } /** * Expands the internal storage array to the specified size. * * @param size Size of the new internal storage array. */ private synchronized void expandTo(int size) { final double[] tempArray = new double[size]; // Copy and swap System.arraycopy(internalArray, 0, tempArray, 0, internalArray.length); internalArray = tempArray; } /** * The contraction criteria defines when the internal array will contract * to store only the number of elements in the element array. * If the expansionMode is MULTIPLICATIVE_MODE, * contraction is triggered when the ratio between storage array length * and numElements exceeds contractionFactor. * If the expansionMode is ADDITIVE_MODE, the * number of excess storage locations is compared to * contractionFactor. * * @return the contraction criteria used to reclaim memory. * @deprecated As of 3.1. Please use {@link #getContractionCriterion()} * instead. */ @Deprecated public float getContractionCriteria() { return (float) getContractionCriterion(); } /** * The contraction criterion defines when the internal array will contract * to store only the number of elements in the element array. * If the expansionMode is MULTIPLICATIVE_MODE, * contraction is triggered when the ratio between storage array length * and numElements exceeds contractionFactor. * If the expansionMode is ADDITIVE_MODE, the * number of excess storage locations is compared to * contractionFactor. * * @return the contraction criterion used to reclaim memory. * @since 3.1 */ public double getContractionCriterion() { return contractionCriterion; } /** * Returns the element at the specified index * * @param index index to fetch a value from * @return value stored at the specified index * @throws ArrayIndexOutOfBoundsException if index is less than * zero or is greater than getNumElements() - 1. */ public synchronized double getElement(int index) { if (index >= numElements) { throw new ArrayIndexOutOfBoundsException(index); } else if (index >= 0) { return internalArray[startIndex + index]; } else { throw new ArrayIndexOutOfBoundsException(index); } } /** * Returns a double array containing the elements of this * ResizableArray. This method returns a copy, not a * reference to the underlying array, so that changes made to the returned * array have no effect on this ResizableArray. * @return the double array. */ public synchronized double[] getElements() { final double[] elementArray = new double[numElements]; System.arraycopy(internalArray, startIndex, elementArray, 0, numElements); return elementArray; } /** * The expansion factor controls the size of a new array when an array * needs to be expanded. The expansionMode * determines whether the size of the array is multiplied by the * expansionFactor (MULTIPLICATIVE_MODE) or if * the expansion is additive (ADDITIVE_MODE -- expansionFactor * storage locations added). The default expansionMode is * MULTIPLICATIVE_MODE and the default expansionFactor * is 2.0. * * @return the expansion factor of this expandable double array * @deprecated As of 3.1. Return type will be changed to "double" in 4.0. */ @Deprecated public float getExpansionFactor() { return (float) expansionFactor; } /** * The expansion mode determines whether the internal storage * array grows additively or multiplicatively when it is expanded. * * @return the expansion mode. * @deprecated As of 3.1. Return value to be changed to * {@link ExpansionMode} in 4.0. */ @Deprecated public int getExpansionMode() { synchronized (this) { switch (expansionMode) { case MULTIPLICATIVE: return MULTIPLICATIVE_MODE; case ADDITIVE: return ADDITIVE_MODE; default: throw new MathInternalError(); // Should never happen. } } } /** * Notice the package scope on this method. This method is simply here * for the JUnit test, it allows us check if the expansion is working * properly after a number of expansions. This is not meant to be a part * of the public interface of this class. * * @return the length of the internal storage array. * @deprecated As of 3.1. Please use {@link #getCapacity()} instead. */ @Deprecated synchronized int getInternalLength() { return internalArray.length; } /** * Gets the currently allocated size of the internal data structure used * for storing elements. * This is not to be confused with {@link #getNumElements() the number of * elements actually stored}. * * @return the length of the internal array. * @since 3.1 */ public int getCapacity() { return internalArray.length; } /** * Returns the number of elements currently in the array. Please note * that this is different from the length of the internal storage array. * * @return the number of elements. */ public synchronized int getNumElements() { return numElements; } /** * Returns the internal storage array. Note that this method returns * a reference to the internal storage array, not a copy, and to correctly * address elements of the array, the startIndex is * required (available via the {@link #start} method). This method should * only be used in cases where copying the internal array is not practical. * The {@link #getElements} method should be used in all other cases. * * * @return the internal storage array used by this object * @since 2.0 * @deprecated As of 3.1. */ @Deprecated public synchronized double[] getInternalValues() { return internalArray; } /** * Provides direct access to the internal storage array. * Please note that this method returns a reference to this object's * storage array, not a copy. *
* To correctly address elements of the array, the "start index" is * required (available via the {@link #getStartIndex() getStartIndex} * method. *
* This method should only be used to avoid copying the internal array. * The returned value must be used for reading only; other * uses could lead to this object becoming inconsistent. *
* The {@link #getElements} method has no such limitation since it * returns a copy of this array's addressable elements. * * @return the internal storage array used by this object. * @since 3.1 */ protected double[] getArrayRef() { return internalArray; } /** * Returns the "start index" of the internal array. * This index is the position of the first addressable element in the * internal storage array. * The addressable elements in the array are at indices contained in * the interval [{@link #getStartIndex()}, * {@link #getStartIndex()} + {@link #getNumElements()} - 1]. * * @return the start index. * @since 3.1 */ protected int getStartIndex() { return startIndex; } /** * Sets the contraction criteria. * * @param contractionCriteria contraction criteria * @throws MathIllegalArgumentException if the contractionCriteria is less than * the expansionCriteria. * @deprecated As of 3.1 (to be removed in 4.0 as field will become "final"). */ @Deprecated public void setContractionCriteria(float contractionCriteria) throws MathIllegalArgumentException { checkContractExpand(contractionCriteria, getExpansionFactor()); synchronized(this) { this.contractionCriterion = contractionCriteria; } } /** * Performs an operation on the addressable elements of the array. * * @param f Function to be applied on this array. * @return the result. * @since 3.1 */ public double compute(MathArrays.Function f) { final double[] array; final int start; final int num; synchronized(this) { array = internalArray; start = startIndex; num = numElements; } return f.evaluate(array, start, num); } /** * Sets the element at the specified index. If the specified index is greater than * getNumElements() - 1, the numElements property * is increased to index +1 and additional storage is allocated * (if necessary) for the new element and all (uninitialized) elements * between the new element and the previous end of the array). * * @param index index to store a value in * @param value value to store at the specified index * @throws ArrayIndexOutOfBoundsException if {@code index < 0}. */ public synchronized void setElement(int index, double value) { if (index < 0) { throw new ArrayIndexOutOfBoundsException(index); } if (index + 1 > numElements) { numElements = index + 1; } if ((startIndex + index) >= internalArray.length) { expandTo(startIndex + (index + 1)); } internalArray[startIndex + index] = value; } /** * Sets the expansionFactor. Throws IllegalArgumentException if the * the following conditions are not met: *
    *
  • expansionFactor > 1
  • *
  • contractionFactor >= expansionFactor
  • *
* @param expansionFactor the new expansion factor value. * @throws MathIllegalArgumentException if expansionFactor is <= 1 or greater * than contractionFactor * @deprecated As of 3.1 (to be removed in 4.0 as field will become "final"). */ @Deprecated public void setExpansionFactor(float expansionFactor) throws MathIllegalArgumentException { checkContractExpand(getContractionCriterion(), expansionFactor); // The check above verifies that the expansion factor is > 1.0; synchronized(this) { this.expansionFactor = expansionFactor; } } /** * Sets the expansionMode. The specified value must be one of * ADDITIVE_MODE, MULTIPLICATIVE_MODE. * * @param expansionMode The expansionMode to set. * @throws MathIllegalArgumentException if the specified mode value is not valid. * @deprecated As of 3.1. Please use {@link #setExpansionMode(ExpansionMode)} instead. */ @Deprecated public void setExpansionMode(int expansionMode) throws MathIllegalArgumentException { if (expansionMode != MULTIPLICATIVE_MODE && expansionMode != ADDITIVE_MODE) { throw new MathIllegalArgumentException(LocalizedFormats.UNSUPPORTED_EXPANSION_MODE, expansionMode, MULTIPLICATIVE_MODE, "MULTIPLICATIVE_MODE", ADDITIVE_MODE, "ADDITIVE_MODE"); } synchronized(this) { if (expansionMode == MULTIPLICATIVE_MODE) { setExpansionMode(ExpansionMode.MULTIPLICATIVE); } else if (expansionMode == ADDITIVE_MODE) { setExpansionMode(ExpansionMode.ADDITIVE); } } } /** * Sets the {@link ExpansionMode expansion mode}. * * @param expansionMode Expansion mode to use for resizing the array. * @deprecated As of 3.1 (to be removed in 4.0 as field will become "final"). */ @Deprecated public void setExpansionMode(ExpansionMode expansionMode) { synchronized(this) { this.expansionMode = expansionMode; } } /** * Sets the initial capacity. Should only be invoked by constructors. * * @param initialCapacity of the array * @throws MathIllegalArgumentException if initialCapacity is not * positive. * @deprecated As of 3.1, this is a no-op. */ @Deprecated protected void setInitialCapacity(int initialCapacity) throws MathIllegalArgumentException { // Body removed in 3.1. } /** * This function allows you to control the number of elements contained * in this array, and can be used to "throw out" the last n values in an * array. This function will also expand the internal array as needed. * * @param i a new number of elements * @throws MathIllegalArgumentException if i is negative. */ public synchronized void setNumElements(int i) throws MathIllegalArgumentException { // If index is negative thrown an error. if (i < 0) { throw new MathIllegalArgumentException( LocalizedFormats.INDEX_NOT_POSITIVE, i); } // Test the new num elements, check to see if the array needs to be // expanded to accommodate this new number of elements. final int newSize = startIndex + i; if (newSize > internalArray.length) { expandTo(newSize); } // Set the new number of elements to new value. numElements = i; } /** * Returns true if the internal storage array has too many unused * storage positions. * * @return true if array satisfies the contraction criteria */ private synchronized boolean shouldContract() { if (expansionMode == ExpansionMode.MULTIPLICATIVE) { return (internalArray.length / ((float) numElements)) > contractionCriterion; } else { return (internalArray.length - numElements) > contractionCriterion; } } /** * Returns the starting index of the internal array. The starting index is * the position of the first addressable element in the internal storage * array. The addressable elements in the array are * internalArray[startIndex],...,internalArray[startIndex + numElements -1] * * * @return the starting index. * @deprecated As of 3.1. */ @Deprecated public synchronized int start() { return startIndex; } /** *

Copies source to dest, copying the underlying data, so dest is * a new, independent copy of source. Does not contract before * the copy.

* *

Obtains synchronization locks on both source and dest * (in that order) before performing the copy.

* *

Neither source nor dest may be null; otherwise a {@link NullArgumentException} * is thrown

* * @param source ResizableDoubleArray to copy * @param dest ResizableArray to replace with a copy of the source array * @exception NullArgumentException if either source or dest is null * @since 2.0 * */ public static void copy(ResizableDoubleArray source, ResizableDoubleArray dest) throws NullArgumentException { MathUtils.checkNotNull(source); MathUtils.checkNotNull(dest); synchronized(source) { synchronized(dest) { dest.contractionCriterion = source.contractionCriterion; dest.expansionFactor = source.expansionFactor; dest.expansionMode = source.expansionMode; dest.internalArray = new double[source.internalArray.length]; System.arraycopy(source.internalArray, 0, dest.internalArray, 0, dest.internalArray.length); dest.numElements = source.numElements; dest.startIndex = source.startIndex; } } } /** * Returns a copy of the ResizableDoubleArray. Does not contract before * the copy, so the returned object is an exact copy of this. * * @return a new ResizableDoubleArray with the same data and configuration * properties as this * @since 2.0 */ public synchronized ResizableDoubleArray copy() { final ResizableDoubleArray result = new ResizableDoubleArray(); copy(this, result); return result; } /** * Returns true iff object is a ResizableDoubleArray with the same properties * as this and an identical internal storage array. * * @param object object to be compared for equality with this * @return true iff object is a ResizableDoubleArray with the same data and * properties as this * @since 2.0 */ @Override public boolean equals(Object object) { if (object == this ) { return true; } if (object instanceof ResizableDoubleArray == false) { return false; } synchronized(this) { synchronized(object) { boolean result = true; final ResizableDoubleArray other = (ResizableDoubleArray) object; result = result && (other.contractionCriterion == contractionCriterion); result = result && (other.expansionFactor == expansionFactor); result = result && (other.expansionMode == expansionMode); result = result && (other.numElements == numElements); result = result && (other.startIndex == startIndex); if (!result) { return false; } else { return Arrays.equals(internalArray, other.internalArray); } } } } /** * Returns a hash code consistent with equals. * * @return the hash code representing this {@code ResizableDoubleArray}. * @since 2.0 */ @Override public synchronized int hashCode() { final int[] hashData = new int[6]; hashData[0] = Double.valueOf(expansionFactor).hashCode(); hashData[1] = Double.valueOf(contractionCriterion).hashCode(); hashData[2] = expansionMode.hashCode(); hashData[3] = Arrays.hashCode(internalArray); hashData[4] = numElements; hashData[5] = startIndex; return Arrays.hashCode(hashData); } }




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