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/*
	* Copyright (C) 2010-2024 Sebastiano Vigna
	*
	* 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 it.unimi.dsi.fastutil.bytes;
import java.io.Serializable;
import it.unimi.dsi.fastutil.HashCommon;
import it.unimi.dsi.fastutil.PriorityQueue;
import java.util.NoSuchElementException;
/** A type-specific array-based FIFO queue, supporting also deque operations.
	*
	* 

Instances of this class represent a FIFO queue using a backing * array in a circular way. The array is enlarged and shrunk as needed. You can use the {@link #trim()} method * to reduce its memory usage, if necessary. * *

This class provides additional methods that implement a deque (double-ended queue). */ public class ByteArrayFIFOQueue implements BytePriorityQueue , Serializable { private static final long serialVersionUID = 0L; /** The standard initial capacity of a queue. */ public static final int INITIAL_CAPACITY = 4; /** The backing array. */ protected transient byte array[]; /** The current (cached) length of {@link #array}. */ protected transient int length; /** The start position in {@link #array}. It is always strictly smaller than {@link #length}.*/ protected transient int start; /** The end position in {@link #array}. It is always strictly smaller than {@link #length}. * Might be actually smaller than {@link #start} because {@link #array} is used cyclically. */ protected transient int end; /** Creates a new empty queue with given capacity. * * @implNote Because of inner limitations of the JVM, the initial * capacity cannot exceed {@link it.unimi.dsi.fastutil.Arrays#MAX_ARRAY_SIZE} − 1. * * @param capacity the initial capacity of this queue. */ public ByteArrayFIFOQueue(final int capacity) { if (capacity > it.unimi.dsi.fastutil.Arrays.MAX_ARRAY_SIZE - 1) throw new IllegalArgumentException("Initial capacity (" + capacity + ") exceeds " + (it.unimi.dsi.fastutil.Arrays.MAX_ARRAY_SIZE - 1)); if (capacity < 0) throw new IllegalArgumentException("Initial capacity (" + capacity + ") is negative"); // We never build a queue with a zero-sized backing array; moreover, to // avoid resizing at the given capacity we need one additional element. array = new byte[Math.max(1, capacity + 1)]; length = array.length; } /** Creates a new empty queue with standard {@linkplain #INITIAL_CAPACITY initial capacity}. */ public ByteArrayFIFOQueue() { this(INITIAL_CAPACITY); } /** {@inheritDoc} * @implSpec This implementation returns {@code null} (FIFO queues have no comparator). */ @Override public ByteComparator comparator() { return null; } @Override public byte dequeueByte() { if (start == end) throw new NoSuchElementException(); final byte t = array[start]; if (++start == length) start = 0; reduce(); return t; } /** Dequeues the {@linkplain PriorityQueue#last() last} element from the queue. * * @return the dequeued element. * @throws NoSuchElementException if the queue is empty. */ public byte dequeueLastByte() { if (start == end) throw new NoSuchElementException(); if (end == 0) end = length; final byte t = array[--end]; reduce(); return t; } private final void resize(final int size, final int newLength) { final byte[] newArray = new byte[newLength]; if (start >= end) { if (size != 0) { System.arraycopy(array, start, newArray, 0, length - start); System.arraycopy(array, 0, newArray, length - start, end); } } else System.arraycopy(array, start, newArray, 0, end - start); start = 0; end = size; array = newArray; length = newLength; } private final void expand() { resize(length, (int)Math.min(it.unimi.dsi.fastutil.Arrays.MAX_ARRAY_SIZE, 2L * length)); } private final void reduce() { final int size = size(); if (length > INITIAL_CAPACITY && size <= length / 4) resize(size, length / 2); } @Override public void enqueue(byte x) { array[end++] = x; if (end == length) end = 0; if (end == start) expand(); } /** Enqueues a new element as the first element (in dequeuing order) of the queue. * @param x the element to enqueue. */ public void enqueueFirst(byte x) { if (start == 0) start = length; array[--start] = x; if (end == start) expand(); } @Override public byte firstByte() { if (start == end) throw new NoSuchElementException(); return array[start]; } @Override public byte lastByte() { if (start == end) throw new NoSuchElementException(); return array[(end == 0 ? length : end) - 1]; } @Override public void clear() { start = end = 0; } /** Trims the queue to the smallest possible size. */ public void trim() { final int size = size(); final byte[] newArray = new byte[size + 1]; if (start <= end) System.arraycopy(array, start, newArray, 0, end - start); else { System.arraycopy(array, start, newArray, 0, length - start); System.arraycopy(array, 0, newArray, length - start, end); } start = 0; length = (end = size) + 1; array = newArray; } @Override public int size() { final int apparentLength = end - start; return apparentLength >= 0 ? apparentLength : length + apparentLength; } private void writeObject(java.io.ObjectOutputStream s) throws java.io.IOException { s.defaultWriteObject(); int size = size(); s.writeInt(size); final byte[] array = this.array; for(int i = start; size-- != 0;) { s.writeByte(array[i++]); if (i == length) i = 0; } } private void readObject(java.io.ObjectInputStream s) throws java.io.IOException, ClassNotFoundException { s.defaultReadObject(); end = s.readInt(); final byte[] array = this.array = new byte[length = HashCommon.nextPowerOfTwo(end + 1)]; for(int i = 0; i < end; i++) array[i] = s.readByte(); } }





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