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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 * Copyright (C) 2008 The Guava Authors
 *
 * Licensed 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 com.google.common.primitives;

import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkElementIndex;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkPositionIndexes;

import com.google.common.annotations.GwtCompatible;
import java.io.Serializable;
import java.util.AbstractList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.RandomAccess;
import javax.annotation.CheckForNull;

/**
 * Static utility methods pertaining to {@code byte} primitives, that are not already found in
 * either {@link Byte} or {@link Arrays}, and interpret bytes as neither signed nor unsigned.
 * The methods which specifically treat bytes as signed or unsigned are found in {@link SignedBytes}
 * and {@link UnsignedBytes}.
 *
 * 

See the Guava User Guide article on primitive utilities. * * @author Kevin Bourrillion * @since 1.0 */ // TODO(kevinb): how to prevent warning on UnsignedBytes when building GWT // javadoc? @GwtCompatible @ElementTypesAreNonnullByDefault public final class Bytes { private Bytes() {} /** * Returns a hash code for {@code value}; equal to the result of invoking {@code ((Byte) * value).hashCode()}. * *

Java 8 users: use {@link Byte#hashCode(byte)} instead. * * @param value a primitive {@code byte} value * @return a hash code for the value */ public static int hashCode(byte value) { return value; } /** * Returns {@code true} if {@code target} is present as an element anywhere in {@code array}. * * @param array an array of {@code byte} values, possibly empty * @param target a primitive {@code byte} value * @return {@code true} if {@code array[i] == target} for some value of {@code i} */ public static boolean contains(byte[] array, byte target) { for (byte value : array) { if (value == target) { return true; } } return false; } /** * Returns the index of the first appearance of the value {@code target} in {@code array}. * * @param array an array of {@code byte} values, possibly empty * @param target a primitive {@code byte} value * @return the least index {@code i} for which {@code array[i] == target}, or {@code -1} if no * such index exists. */ public static int indexOf(byte[] array, byte target) { return indexOf(array, target, 0, array.length); } // TODO(kevinb): consider making this public private static int indexOf(byte[] array, byte target, int start, int end) { for (int i = start; i < end; i++) { if (array[i] == target) { return i; } } return -1; } /** * Returns the start position of the first occurrence of the specified {@code target} within * {@code array}, or {@code -1} if there is no such occurrence. * *

More formally, returns the lowest index {@code i} such that {@code Arrays.copyOfRange(array, * i, i + target.length)} contains exactly the same elements as {@code target}. * * @param array the array to search for the sequence {@code target} * @param target the array to search for as a sub-sequence of {@code array} */ public static int indexOf(byte[] array, byte[] target) { checkNotNull(array, "array"); checkNotNull(target, "target"); if (target.length == 0) { return 0; } outer: for (int i = 0; i < array.length - target.length + 1; i++) { for (int j = 0; j < target.length; j++) { if (array[i + j] != target[j]) { continue outer; } } return i; } return -1; } /** * Returns the index of the last appearance of the value {@code target} in {@code array}. * * @param array an array of {@code byte} values, possibly empty * @param target a primitive {@code byte} value * @return the greatest index {@code i} for which {@code array[i] == target}, or {@code -1} if no * such index exists. */ public static int lastIndexOf(byte[] array, byte target) { return lastIndexOf(array, target, 0, array.length); } // TODO(kevinb): consider making this public private static int lastIndexOf(byte[] array, byte target, int start, int end) { for (int i = end - 1; i >= start; i--) { if (array[i] == target) { return i; } } return -1; } /** * Returns the values from each provided array combined into a single array. For example, {@code * concat(new byte[] {a, b}, new byte[] {}, new byte[] {c}} returns the array {@code {a, b, c}}. * * @param arrays zero or more {@code byte} arrays * @return a single array containing all the values from the source arrays, in order */ public static byte[] concat(byte[]... arrays) { int length = 0; for (byte[] array : arrays) { length += array.length; } byte[] result = new byte[length]; int pos = 0; for (byte[] array : arrays) { System.arraycopy(array, 0, result, pos, array.length); pos += array.length; } return result; } /** * Returns an array containing the same values as {@code array}, but guaranteed to be of a * specified minimum length. If {@code array} already has a length of at least {@code minLength}, * it is returned directly. Otherwise, a new array of size {@code minLength + padding} is * returned, containing the values of {@code array}, and zeroes in the remaining places. * * @param array the source array * @param minLength the minimum length the returned array must guarantee * @param padding an extra amount to "grow" the array by if growth is necessary * @throws IllegalArgumentException if {@code minLength} or {@code padding} is negative * @return an array containing the values of {@code array}, with guaranteed minimum length {@code * minLength} */ public static byte[] ensureCapacity(byte[] array, int minLength, int padding) { checkArgument(minLength >= 0, "Invalid minLength: %s", minLength); checkArgument(padding >= 0, "Invalid padding: %s", padding); return (array.length < minLength) ? Arrays.copyOf(array, minLength + padding) : array; } /** * Returns an array containing each value of {@code collection}, converted to a {@code byte} value * in the manner of {@link Number#byteValue}. * *

Elements are copied from the argument collection as if by {@code collection.toArray()}. * Calling this method is as thread-safe as calling that method. * * @param collection a collection of {@code Number} instances * @return an array containing the same values as {@code collection}, in the same order, converted * to primitives * @throws NullPointerException if {@code collection} or any of its elements is null * @since 1.0 (parameter was {@code Collection} before 12.0) */ public static byte[] toArray(Collection collection) { if (collection instanceof ByteArrayAsList) { return ((ByteArrayAsList) collection).toByteArray(); } Object[] boxedArray = collection.toArray(); int len = boxedArray.length; byte[] array = new byte[len]; for (int i = 0; i < len; i++) { // checkNotNull for GWT (do not optimize) array[i] = ((Number) checkNotNull(boxedArray[i])).byteValue(); } return array; } /** * Returns a fixed-size list backed by the specified array, similar to {@link * Arrays#asList(Object[])}. The list supports {@link List#set(int, Object)}, but any attempt to * set a value to {@code null} will result in a {@link NullPointerException}. * *

The returned list maintains the values, but not the identities, of {@code Byte} objects * written to or read from it. For example, whether {@code list.get(0) == list.get(0)} is true for * the returned list is unspecified. * *

The returned list is serializable. * * @param backingArray the array to back the list * @return a list view of the array */ public static List asList(byte... backingArray) { if (backingArray.length == 0) { return Collections.emptyList(); } return new ByteArrayAsList(backingArray); } @GwtCompatible private static class ByteArrayAsList extends AbstractList implements RandomAccess, Serializable { final byte[] array; final int start; final int end; ByteArrayAsList(byte[] array) { this(array, 0, array.length); } ByteArrayAsList(byte[] array, int start, int end) { this.array = array; this.start = start; this.end = end; } @Override public int size() { return end - start; } @Override public boolean isEmpty() { return false; } @Override public Byte get(int index) { checkElementIndex(index, size()); return array[start + index]; } @Override public boolean contains(@CheckForNull Object target) { // Overridden to prevent a ton of boxing return (target instanceof Byte) && Bytes.indexOf(array, (Byte) target, start, end) != -1; } @Override public int indexOf(@CheckForNull Object target) { // Overridden to prevent a ton of boxing if (target instanceof Byte) { int i = Bytes.indexOf(array, (Byte) target, start, end); if (i >= 0) { return i - start; } } return -1; } @Override public int lastIndexOf(@CheckForNull Object target) { // Overridden to prevent a ton of boxing if (target instanceof Byte) { int i = Bytes.lastIndexOf(array, (Byte) target, start, end); if (i >= 0) { return i - start; } } return -1; } @Override public Byte set(int index, Byte element) { checkElementIndex(index, size()); byte oldValue = array[start + index]; // checkNotNull for GWT (do not optimize) array[start + index] = checkNotNull(element); return oldValue; } @Override public List subList(int fromIndex, int toIndex) { int size = size(); checkPositionIndexes(fromIndex, toIndex, size); if (fromIndex == toIndex) { return Collections.emptyList(); } return new ByteArrayAsList(array, start + fromIndex, start + toIndex); } @Override public boolean equals(@CheckForNull Object object) { if (object == this) { return true; } if (object instanceof ByteArrayAsList) { ByteArrayAsList that = (ByteArrayAsList) object; int size = size(); if (that.size() != size) { return false; } for (int i = 0; i < size; i++) { if (array[start + i] != that.array[that.start + i]) { return false; } } return true; } return super.equals(object); } @Override public int hashCode() { int result = 1; for (int i = start; i < end; i++) { result = 31 * result + Bytes.hashCode(array[i]); } return result; } @Override public String toString() { StringBuilder builder = new StringBuilder(size() * 5); builder.append('[').append(array[start]); for (int i = start + 1; i < end; i++) { builder.append(", ").append(array[i]); } return builder.append(']').toString(); } byte[] toByteArray() { return Arrays.copyOfRange(array, start, end); } private static final long serialVersionUID = 0; } /** * Reverses the elements of {@code array}. This is equivalent to {@code * Collections.reverse(Bytes.asList(array))}, but is likely to be more efficient. * * @since 23.1 */ public static void reverse(byte[] array) { checkNotNull(array); reverse(array, 0, array.length); } /** * Reverses the elements of {@code array} between {@code fromIndex} inclusive and {@code toIndex} * exclusive. This is equivalent to {@code * Collections.reverse(Bytes.asList(array).subList(fromIndex, toIndex))}, but is likely to be more * efficient. * * @throws IndexOutOfBoundsException if {@code fromIndex < 0}, {@code toIndex > array.length}, or * {@code toIndex > fromIndex} * @since 23.1 */ public static void reverse(byte[] array, int fromIndex, int toIndex) { checkNotNull(array); checkPositionIndexes(fromIndex, toIndex, array.length); for (int i = fromIndex, j = toIndex - 1; i < j; i++, j--) { byte tmp = array[i]; array[i] = array[j]; array[j] = tmp; } } /** * Performs a right rotation of {@code array} of "distance" places, so that the first element is * moved to index "distance", and the element at index {@code i} ends up at index {@code (distance * + i) mod array.length}. This is equivalent to {@code Collections.rotate(Bytes.asList(array), * distance)}, but is somewhat faster. * *

The provided "distance" may be negative, which will rotate left. * * @since 32.0.0 */ public static void rotate(byte[] array, int distance) { rotate(array, distance, 0, array.length); } /** * Performs a right rotation of {@code array} between {@code fromIndex} inclusive and {@code * toIndex} exclusive. This is equivalent to {@code * Collections.rotate(Bytes.asList(array).subList(fromIndex, toIndex), distance)}, but is somewhat * faster. * *

The provided "distance" may be negative, which will rotate left. * * @throws IndexOutOfBoundsException if {@code fromIndex < 0}, {@code toIndex > array.length}, or * {@code toIndex > fromIndex} * @since 32.0.0 */ public static void rotate(byte[] array, int distance, int fromIndex, int toIndex) { // See Ints.rotate for more details about possible algorithms here. checkNotNull(array); checkPositionIndexes(fromIndex, toIndex, array.length); if (array.length <= 1) { return; } int length = toIndex - fromIndex; // Obtain m = (-distance mod length), a non-negative value less than "length". This is how many // places left to rotate. int m = -distance % length; m = (m < 0) ? m + length : m; // The current index of what will become the first element of the rotated section. int newFirstIndex = m + fromIndex; if (newFirstIndex == fromIndex) { return; } reverse(array, fromIndex, newFirstIndex); reverse(array, newFirstIndex, toIndex); reverse(array, fromIndex, toIndex); } }





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