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 * 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
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 *      http://www.apache.org/licenses/LICENSE-2.0
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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 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 synchronized. This qualifier will be dropped in the next major release (4.0).

The internal storage array starts with capacity determined by the initialCapacity property, which can be set by the constructor. The default initial capacity is 16. Adding elements using 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 expansionMode and expansionFactor properties. The expansionMode determines whether the size of the array is multiplied by the expansionFactor (ExpansionMode.MULTIPLICATIVE) or if the expansion is additive (ExpansionMode.ADDITIVE -- expansionFactor storage locations added). The default expansionMode is MULTIPLICATIVE and the default expansionFactor is 2.

The 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 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 numElements property) and if the difference is too large, the internal array is contracted to size numElements + 1. The determination of when the internal storage array is "too large" depends on the expansionMode and contractionFactor properties. If the expansionMode is MULTIPLICATIVE, contraction is triggered when the ratio between storage array length and numElements exceeds contractionFactor. If the expansionMode is ADDITIVE, the number of excess storage locations is compared to contractionFactor.

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

/** * <p> * A variable length {@link DoubleArray} implementation that automatically * handles expanding and contracting its internal storage array as elements * are added and removed. * </p> * <h3>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).</h3> * <p> * 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. * </p> * <p> * 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}. * </p> * <p> * 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. * </p> */
public class ResizableDoubleArray implements DoubleArray, Serializable {
Additive expansion mode.
Deprecated:As of 3.1. Please use ExpansionMode.ADDITIVE instead.
/** 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 ExpansionMode.MULTIPLICATIVE instead.
/** 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.
/** Serializable version identifier. */
private static final long serialVersionUID = -3485529955529426875L;
Default value for initial capacity.
/** Default value for initial capacity. */
private static final int DEFAULT_INITIAL_CAPACITY = 16;
Default value for array size modifier.
/** Default value for array size modifier. */
private static final double DEFAULT_EXPANSION_FACTOR = 2.0;
Default value for the difference between contractionCriterion and expansionFactor.
/** * 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.
/** * 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 internalArray.length * expansionFactor if expansionMode is set to MULTIPLICATIVE_MODE, or internalArray.length + expansionFactor if expansionMode is set to ADDITIVE_MODE.
/** * 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 expansionFactor is additive or multiplicative.
/** * Determines whether array expansion by {@code expansionFactor} * is additive or multiplicative. */
private ExpansionMode expansionMode = ExpansionMode.MULTIPLICATIVE;
The internal storage array.
/** * 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.
/** * 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 internalArray[startIndex],...,internalArray[startIndex + numElements - 1].
/** * 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
/** * Specification of expansion algorithm. * @since 3.1 */
public enum ExpansionMode {
Multiplicative expansion mode.
/** Multiplicative expansion mode. */
MULTIPLICATIVE,
Additive expansion mode.
/** Additive expansion mode. */
ADDITIVE }
Creates an instance with default properties.
  • initialCapacity = 16
  • expansionMode = MULTIPLICATIVE
  • expansionFactor = 2.0
  • contractionCriterion = 2.5
/** * Creates an instance with default properties. * <ul> * <li>{@code initialCapacity = 16}</li> * <li>{@code expansionMode = MULTIPLICATIVE}</li> * <li>{@code expansionFactor = 2.0}</li> * <li>{@code contractionCriterion = 2.5}</li> * </ul> */
public ResizableDoubleArray() { this(DEFAULT_INITIAL_CAPACITY); }
Creates an instance with the specified initial capacity. Other properties take default values:
  • expansionMode = MULTIPLICATIVE
  • expansionFactor = 2.0
  • contractionCriterion = 2.5
Params:
  • initialCapacity – Initial size of the internal storage array.
Throws:
/** * Creates an instance with the specified initial capacity. * Other properties take default values: * <ul> * <li>{@code expansionMode = MULTIPLICATIVE}</li> * <li>{@code expansionFactor = 2.0}</li> * <li>{@code contractionCriterion = 2.5}</li> * </ul> * @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 double[] with the initial capacity and numElements corresponding to the size of the supplied 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:
  • initialCapacity = 16
  • expansionMode = MULTIPLICATIVE
  • expansionFactor = 2.0
  • contractionCriterion = 2.5
Params:
  • initialArray – initial array
Since:2.2
/** * 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: * <ul> * <li>{@code initialCapacity = 16}</li> * <li>{@code expansionMode = MULTIPLICATIVE}</li> * <li>{@code expansionFactor = 2.0}</li> * <li>{@code contractionCriterion = 2.5}</li> * </ul> * * @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:
  • expansionMode = MULTIPLICATIVE
  • contractionCriterion = 0.5 + expansionFactor

Throws IllegalArgumentException if the following conditions are not met:
  • initialCapacity > 0
  • expansionFactor > 1
Params:
  • initialCapacity – Initial size of the internal storage array.
  • expansionFactor – The array will be expanded based on this parameter.
Throws:
Deprecated:As of 3.1. Please use ResizableDoubleArray(int, double) instead.
/** * Creates an instance with the specified initial capacity * and expansion factor. * The remaining properties take default values: * <ul> * <li>{@code expansionMode = MULTIPLICATIVE}</li> * <li>{@code contractionCriterion = 0.5 + expansionFactor}</li> * </ul> * <br/> * Throws IllegalArgumentException if the following conditions are * not met: * <ul> * <li>{@code initialCapacity > 0}</li> * <li>{@code expansionFactor > 1}</li> * </ul> * * @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:
  • expansionMode = MULTIPLICATIVE
  • contractionCriterion = 0.5 + expansionFactor

Throws IllegalArgumentException if the following conditions are not met:
  • initialCapacity > 0
  • expansionFactor > 1
Params:
  • initialCapacity – Initial size of the internal storage array.
  • expansionFactor – The array will be expanded based on this parameter.
Throws:
Since:3.1
/** * Creates an instance with the specified initial capacity * and expansion factor. * The remaining properties take default values: * <ul> * <li>{@code expansionMode = MULTIPLICATIVE}</li> * <li>{@code contractionCriterion = 0.5 + expansionFactor}</li> * </ul> * <br/> * Throws IllegalArgumentException if the following conditions are * not met: * <ul> * <li>{@code initialCapacity > 0}</li> * <li>{@code expansionFactor > 1}</li> * </ul> * * @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 MULTIPLICATIVE.
Throws IllegalArgumentException if the following conditions are not met:
  • initialCapacity > 0
  • expansionFactor > 1
  • contractionCriterion >= expansionFactor
Params:
  • initialCapacity – Initial size of the internal storage array..
  • expansionFactor – The array will be expanded based on this parameter.
  • contractionCriteria – Contraction criteria.
Throws:
Deprecated:As of 3.1. Please use ResizableDoubleArray(int, double, double) instead.
/** * Creates an instance with the specified initialCapacity, * expansionFactor, and contractionCriterion. * The expansion mode will default to {@code MULTIPLICATIVE}. * <br/> * Throws IllegalArgumentException if the following conditions are * not met: * <ul> * <li>{@code initialCapacity > 0}</li> * <li>{@code expansionFactor > 1}</li> * <li>{@code contractionCriterion >= expansionFactor}</li> * </ul> * * @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 MULTIPLICATIVE.
Throws IllegalArgumentException if the following conditions are not met:
  • initialCapacity > 0
  • expansionFactor > 1
  • contractionCriterion >= expansionFactor
Params:
  • initialCapacity – Initial size of the internal storage array..
  • expansionFactor – The array will be expanded based on this parameter.
  • contractionCriterion – Contraction criterion.
Throws:
Since:3.1
/** * Creates an instance with the specified initial capacity, * expansion factor, and contraction criteria. * The expansion mode will default to {@code MULTIPLICATIVE}. * <br/> * Throws IllegalArgumentException if the following conditions are * not met: * <ul> * <li>{@code initialCapacity > 0}</li> * <li>{@code expansionFactor > 1}</li> * <li>{@code contractionCriterion >= expansionFactor}</li> * </ul> * * @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}

Params:
  • initialCapacity – the initial size of the internal storage array
  • expansionFactor – the array will be expanded based on this parameter
  • contractionCriteria – the contraction Criteria
  • expansionMode – the expansion mode
Throws:
Deprecated:As of 3.1. Please use ResizableDoubleArray(int, double, double, ExpansionMode, double[]) instead.
/** * <p> * Create a ResizableArray with the specified properties.</p> * <p> * Throws IllegalArgumentException if the following conditions are * not met: * <ul> * <li><code>initialCapacity > 0</code></li> * <li><code>expansionFactor > 1</code></li> * <li><code>contractionFactor >= expansionFactor</code></li> * <li><code>expansionMode in {MULTIPLICATIVE_MODE, ADDITIVE_MODE}</code> * </li> * </ul></p> * * @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:
  • initialCapacity > 0
  • expansionFactor > 1
  • contractionCriterion >= expansionFactor
Params:
  • initialCapacity – Initial size of the internal storage array.
  • expansionFactor – The array will be expanded based on this parameter.
  • contractionCriterion – Contraction criteria.
  • expansionMode – Expansion mode.
  • data – Initial contents of the array.
Throws:
/** * Creates an instance with the specified properties. * <br/> * Throws MathIllegalArgumentException if the following conditions are * not met: * <ul> * <li>{@code initialCapacity > 0}</li> * <li>{@code expansionFactor > 1}</li> * <li>{@code contractionCriterion >= expansionFactor}</li> * </ul> * * @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 NullArgumentException is thrown.
Params:
  • original – array to copy
Throws:
Since:2.0
/** * 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.
Params:
  • value – Value to be added to end of array.
/** * 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.
Params:
  • values – Values to be added to end of array.
Since:2.2
/** * 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.

Params:
  • value – Value to be added to the array.
Returns:the value which has been discarded or "pushed" out of the array by this rolling insert.
/** * <p> * 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. * </p> * <p> * 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. * </p> * * @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 numElements is zero), an IllegalStateException is thrown.
Params:
  • value – New value to substitute for the most recently added value
Throws:
Returns:the value that has been replaced in the array.
Since:2.0
/** * Substitutes <code>value</code> 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
Params:
  • expansion – factor to be checked
  • contraction – criteria to be checked
Throws:
Deprecated:As of 3.1. Please use checkContractExpand(double, double) instead.
/** * 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.
Params:
  • contraction – Criterion to be checked.
  • expansion – Factor to be checked.
Throws:
Since:3.1
/** * 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.
/** * 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.
/** * 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.
Params:
  • i – the number of elements to discard from the front of the array
Throws:
Since:2.0
/** * Discards the <code>i</code> initial elements of the array. For example, * if the array contains the elements 1,2,3,4, invoking * <code>discardFrontElements(2)</code> 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.
Params:
  • i – the number of elements to discard from the end of the array
Throws:
Since:2.0
/** * Discards the <code>i</code> last elements of the array. For example, * if the array contains the elements 1,2,3,4, invoking * <code>discardMostRecentElements(2)</code> 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.
Params:
  • i – the number of elements to discard from the front/end of the array
  • 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:
Since:2.0
/** * Discards the <code>i</code> first or last elements of the array, * depending on the value of <code>front</code>. * For example, if the array contains the elements 1,2,3,4, invoking * <code>discardExtremeElements(2,false)</code> 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 * <code>discardExtremeElements(2,true)</code> 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

/** * Expands the internal storage array using the expansion factor. * <p> * if <code>expansionMode</code> is set to MULTIPLICATIVE_MODE, * the new array size will be <code>internalArray.length * expansionFactor.</code> * If <code>expansionMode</code> is set to ADDITIVE_MODE, the length * after expansion will be <code>internalArray.length + expansionFactor</code> * </p> */
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.
Params:
  • size – Size of the new internal storage array.
/** * 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.
Returns:the contraction criteria used to reclaim memory.
Deprecated:As of 3.1. Please use getContractionCriterion() instead.
/** * The contraction criteria defines when the internal array will contract * to store only the number of elements in the element array. * If the <code>expansionMode</code> is <code>MULTIPLICATIVE_MODE</code>, * contraction is triggered when the ratio between storage array length * and <code>numElements</code> exceeds <code>contractionFactor</code>. * If the <code>expansionMode</code> is <code>ADDITIVE_MODE</code>, the * number of excess storage locations is compared to * <code>contractionFactor.</code> * * @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.
Returns:the contraction criterion used to reclaim memory.
Since:3.1
/** * The contraction criterion defines when the internal array will contract * to store only the number of elements in the element array. * If the <code>expansionMode</code> is <code>MULTIPLICATIVE_MODE</code>, * contraction is triggered when the ratio between storage array length * and <code>numElements</code> exceeds <code>contractionFactor</code>. * If the <code>expansionMode</code> is <code>ADDITIVE_MODE</code>, the * number of excess storage locations is compared to * <code>contractionFactor.</code> * * @return the contraction criterion used to reclaim memory. * @since 3.1 */
public double getContractionCriterion() { return contractionCriterion; }
Returns the element at the specified index
Params:
  • index – index to fetch a value from
Throws:
Returns:value stored at the specified index
/** * 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 <code>index</code> is less than * zero or is greater than <code>getNumElements() - 1</code>. */
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.
Returns:the double array.
/** * Returns a double array containing the elements of this * <code>ResizableArray</code>. 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 <code>ResizableArray.</code> * @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.
Returns:the expansion factor of this expandable double array
Deprecated:As of 3.1. Return type will be changed to "double" in 4.0.
/** * The expansion factor controls the size of a new array when an array * needs to be expanded. The <code>expansionMode</code> * determines whether the size of the array is multiplied by the * <code>expansionFactor</code> (MULTIPLICATIVE_MODE) or if * the expansion is additive (ADDITIVE_MODE -- <code>expansionFactor</code> * storage locations added). The default <code>expansionMode</code> is * MULTIPLICATIVE_MODE and the default <code>expansionFactor</code> * 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.
Returns:the expansion mode.
Deprecated:As of 3.1. Return value to be changed to ExpansionMode in 4.0.
/** * 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.
Returns:the length of the internal storage array.
Deprecated:As of 3.1. Please use getCapacity() instead.
/** * 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 the number of elements actually stored.
Returns:the length of the internal array.
Since:3.1
/** * 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.
Returns:the number of elements.
/** * 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 start method). This method should only be used in cases where copying the internal array is not practical. The getElements method should be used in all other cases.
Returns:the internal storage array used by this object
Since:2.0
Deprecated:As of 3.1.
/** * 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 <code>startIndex</code> 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 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 getElements method has no such limitation since it returns a copy of this array's addressable elements.
Returns:the internal storage array used by this object.
Since:3.1
/** * Provides <em>direct</em> access to the internal storage array. * Please note that this method returns a reference to this object's * storage array, not a copy. * <br/> * To correctly address elements of the array, the "start index" is * required (available via the {@link #getStartIndex() getStartIndex} * method. * <br/> * This method should only be used to avoid copying the internal array. * The returned value <em>must</em> be used for reading only; other * uses could lead to this object becoming inconsistent. * <br/> * 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 [getStartIndex(), getStartIndex() + getNumElements() - 1].
Returns:the start index.
Since:3.1
/** * 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.
Params:
  • contractionCriteria – contraction criteria
Throws:
Deprecated:As of 3.1 (to be removed in 4.0 as field will become "final").
/** * 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.
Params:
  • f – Function to be applied on this array.
Returns:the result.
Since:3.1
/** * 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).
Params:
  • index – index to store a value in
  • value – value to store at the specified index
Throws:
/** * Sets the element at the specified index. If the specified index is greater than * <code>getNumElements() - 1</code>, the <code>numElements</code> property * is increased to <code>index +1</code> 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
Params:
  • expansionFactor – the new expansion factor value.
Throws:
Deprecated:As of 3.1 (to be removed in 4.0 as field will become "final").
/** * Sets the expansionFactor. Throws IllegalArgumentException if the * the following conditions are not met: * <ul> * <li><code>expansionFactor > 1</code></li> * <li><code>contractionFactor >= expansionFactor</code></li> * </ul> * @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.
Params:
  • expansionMode – The expansionMode to set.
Throws:
Deprecated:As of 3.1. Please use setExpansionMode(ExpansionMode) instead.
/** * Sets the <code>expansionMode</code>. 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 expansion mode.
Params:
  • 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").
/** * 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.
Params:
  • initialCapacity – of the array
Throws:
Deprecated:As of 3.1, this is a no-op.
/** * Sets the initial capacity. Should only be invoked by constructors. * * @param initialCapacity of the array * @throws MathIllegalArgumentException if <code>initialCapacity</code> 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.
Params:
  • i – a new number of elements
Throws:
/** * 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 <code>i</code> 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.
Returns:true if array satisfies the contraction criteria
/** * 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]
Returns:the starting index.
Deprecated:As of 3.1.
/** * 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 <code> * internalArray[startIndex],...,internalArray[startIndex + numElements -1] * </code> * * @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 NullArgumentException is thrown

Params:
  • source – ResizableDoubleArray to copy
  • dest – ResizableArray to replace with a copy of the source array
Throws:
Since:2.0
/** * <p>Copies source to dest, copying the underlying data, so dest is * a new, independent copy of source. Does not contract before * the copy.</p> * * <p>Obtains synchronization locks on both source and dest * (in that order) before performing the copy.</p> * * <p>Neither source nor dest may be null; otherwise a {@link NullArgumentException} * is thrown</p> * * @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.
Returns:a new ResizableDoubleArray with the same data and configuration properties as this
Since:2.0
/** * 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.
Params:
  • object – object to be compared for equality with this
Returns:true iff object is a ResizableDoubleArray with the same data and properties as this
Since:2.0
/** * 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.
Returns:the hash code representing this ResizableDoubleArray.
Since:2.0
/** * 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); } }