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152 lines
4.7 KiB
Java
152 lines
4.7 KiB
Java
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/**
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* File: array_deque.java
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* Created Time: 2023-02-16
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* Author: krahets (krahets@163.com), FangYuan33 (374072213@qq.com)
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*/
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package chapter_stack_and_queue;
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import java.util.*;
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/* Double-ended queue class based on circular array */
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class ArrayDeque {
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private int[] nums; // Array used to store elements of the double-ended queue
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private int front; // Front pointer, pointing to the front element
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private int queSize; // Length of the double-ended queue
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/* Constructor */
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public ArrayDeque(int capacity) {
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this.nums = new int[capacity];
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front = queSize = 0;
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}
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/* Get the capacity of the double-ended queue */
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public int capacity() {
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return nums.length;
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}
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/* Get the length of the double-ended queue */
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public int size() {
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return queSize;
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}
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/* Determine if the double-ended queue is empty */
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public boolean isEmpty() {
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return queSize == 0;
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}
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/* Calculate circular array index */
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private int index(int i) {
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// Implement circular array by modulo operation
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// When i exceeds the tail of the array, return to the head
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// When i exceeds the head of the array, return to the tail
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return (i + capacity()) % capacity();
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}
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/* Front enqueue */
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public void pushFirst(int num) {
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if (queSize == capacity()) {
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System.out.println("Double-ended queue is full");
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return;
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}
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// Move the front pointer one position to the left
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// Implement front crossing the head of the array to return to the tail by modulo operation
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front = index(front - 1);
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// Add num to the front
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nums[front] = num;
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queSize++;
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}
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/* Rear enqueue */
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public void pushLast(int num) {
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if (queSize == capacity()) {
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System.out.println("Double-ended queue is full");
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return;
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}
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// Calculate rear pointer, pointing to rear index + 1
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int rear = index(front + queSize);
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// Add num to the rear
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nums[rear] = num;
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queSize++;
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}
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/* Front dequeue */
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public int popFirst() {
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int num = peekFirst();
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// Move front pointer one position backward
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front = index(front + 1);
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queSize--;
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return num;
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}
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/* Rear dequeue */
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public int popLast() {
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int num = peekLast();
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queSize--;
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return num;
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}
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/* Access front element */
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public int peekFirst() {
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if (isEmpty())
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throw new IndexOutOfBoundsException();
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return nums[front];
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}
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/* Access rear element */
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public int peekLast() {
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if (isEmpty())
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throw new IndexOutOfBoundsException();
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// Calculate rear element index
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int last = index(front + queSize - 1);
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return nums[last];
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}
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/* Return array for printing */
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public int[] toArray() {
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// Only convert elements within valid length range
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int[] res = new int[queSize];
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for (int i = 0, j = front; i < queSize; i++, j++) {
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res[i] = nums[index(j)];
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}
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return res;
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}
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}
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public class array_deque {
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public static void main(String[] args) {
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/* Initialize double-ended queue */
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ArrayDeque deque = new ArrayDeque(10);
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deque.pushLast(3);
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deque.pushLast(2);
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deque.pushLast(5);
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System.out.println("Double-ended queue deque = " + Arrays.toString(deque.toArray()));
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/* Access element */
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int peekFirst = deque.peekFirst();
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System.out.println("Front element peekFirst = " + peekFirst);
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int peekLast = deque.peekLast();
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System.out.println("Back element peekLast = " + peekLast);
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/* Element enqueue */
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deque.pushLast(4);
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System.out.println("Element 4 enqueued at the tail, deque = " + Arrays.toString(deque.toArray()));
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deque.pushFirst(1);
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System.out.println("Element 1 enqueued at the head, deque = " + Arrays.toString(deque.toArray()));
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/* Element dequeue */
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int popLast = deque.popLast();
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System.out.println("Deque tail element = " + popLast + ", after dequeuing from the tail" + Arrays.toString(deque.toArray()));
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int popFirst = deque.popFirst();
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System.out.println("Deque front element = " + popFirst + ", after dequeuing from the front" + Arrays.toString(deque.toArray()));
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/* Get the length of the double-ended queue */
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int size = deque.size();
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System.out.println("Length of the double-ended queue size = " + size);
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/* Determine if the double-ended queue is empty */
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boolean isEmpty = deque.isEmpty();
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System.out.println("Is the double-ended queue empty = " + isEmpty);
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}
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}
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