設(shè)計循環(huán)隊列的實現(xiàn)。循環(huán)隊列是一種線性數(shù)據(jù)結(jié)構(gòu),其操作基于FIFO(先進先出)原則,最后一個位置與第一個位置連接形成一個圓圈���。它也被稱為“環(huán)形緩沖區(qū)”����。
循環(huán)隊列的好處之一是我們可以利用隊列前面的空間��。在普通隊列中����,一旦隊列滿了�,即使隊列前面有空間,我們也無法插入下一個元素。但是使用循環(huán)隊列,我們??可以使用空間來存儲新值。
您的實現(xiàn)應(yīng)支持以下操作:
MyCircularQueue(k):構(gòu)造函數(shù)�,設(shè)置隊列大小為k���。
Front:從隊列中獲取最前面的項目。如果隊列為空���,則返回 -1。
Rear:從隊列中獲取最后一項��。如果隊列為空����,則返回 -1。
enQueue(value): 將一個元素插入循環(huán)隊列�。如果操作成功����,則返回 true����。
deQueue():從循環(huán)隊列中刪除一個元素。如果操作成功,則返回 true�。
isEmpty():檢查循環(huán)隊列是否為空���。
isFull():檢查循環(huán)隊列是否已滿����。
例子:
MyCircularQueue circularQueue = new MycircularQueue(3); // set the size to be 3
circularQueue.enQueue(1); // return true
circularQueue.enQueue(2); // return true
circularQueue.enQueue(3); // return true
circularQueue.enQueue(4); // return false, the queue is full
circularQueue.Rear(); // return 3
circularQueue.isFull(); // return true
circularQueue.deQueue(); // return true
circularQueue.enQueue(4); // return true
circularQueue.Rear()
分析
數(shù)組排序?qū)崿F(xiàn):
重點是確定循環(huán)的空位和滿員情況��,以及下一個前后標的位置����。
一個int length可以記錄當前隊列的元素個數(shù)�����,和循環(huán)周期的大小比較就可以得出是否滿����,檢查長度是否為0���,則檢測出是否為空�����。
對后方和前方的下標位置有不同的應(yīng)用思路:
1.前面代表隊列的頭部元素位置,代表隊列的位置;初始化rear=-1, front=0
2.前面代表隊列的頭部元素位置,代表隊列時可以代表新元素的位置:rear=0, front=0
Tricky不過�,對于第一個��,讀取Front()和Rear()可以直接用front和rear作為下標����,對于2�����,讀取Rear()時����,需要計算下標:(rear + q.length - 1) % q.length
解決方案
數(shù)組實現(xiàn) 1 - init front = 0��,rear = -1
class MyCircularQueue {
private int length;
private int rear, front;
private int[] q;
/** Initialize your data structure here. Set the size of the queue to be k. */
public MyCircularQueue(int k) {
q = new int[k];
length = 0;
front = 0;
rear = -1;
}
/** Insert an element into the circular queue. Return true if the operation is successful. */
public boolean enQueue(int value) {
if (isFull()) {
return false;
}
rear = (rear + 1) % (q.length);
q[rear] = value;
length++;
return true;
}
/** Delete an element from the circular queue. Return true if the operation is successful. */
public boolean deQueue() {
if (isEmpty()) {
return false;
}
front = (front + 1) % (q.length);
length--;
return true;
}
/** Get the front item from the queue. */
public int Front() {
return isEmpty() ? -1 : q[front];
}
/** Get the last item from the queue. */
public int Rear() {
return isEmpty() ? -1 : q[rear];
}
/** Checks whether the circular queue is empty or not. */
public boolean isEmpty() {
return length == 0;
}
/** Checks whether the circular queue is full or not. */
public boolean isFull() {
return length == q.length;
}
}
/**
* Your MyCircularQueue object will be instantiated and called as such:
* MyCircularQueue obj = new MyCircularQueue(k);
* boolean param_1 = obj.enQueue(value);
* boolean param_2 = obj.deQueue();
* int param_3 = obj.Front();
* int param_4 = obj.Rear();
* boolean param_5 = obj.isEmpty();
* boolean param_6 = obj.isFull();
數(shù)組實現(xiàn) 2 - init front = 0����,rear = 0
class MyCircularQueue {
private int length;
private int rear, front;
private int[] q;
/** Initialize your data structure here. Set the size of the queue to be k. */
public MyCircularQueue(int k) {
q = new int[k];
length = 0;
front = 0;
rear = 0;
}
/** Insert an element into the circular queue. Return true if the operation is successful. */
public boolean enQueue(int value) {
if (isFull()) {
return false;
}
q[rear] = value;
rear = (rear + 1) % (q.length);
length++;
return true;
}
/** Delete an element from the circular queue. Return true if the operation is successful. */
public boolean deQueue() {
if (isEmpty()) {
return false;
}
front = (front + 1) % (q.length);
length--;
return true;
}
/** Get the front item from the queue. */
public int Front() {
return isEmpty() ? -1 : q[front];
}
/** Get the last item from the queue. */
public int Rear() {
return isEmpty() ? -1 : q[(rear + q.length - 1) % q.length];
}
/** Checks whether the circular queue is empty or not. */
public boolean isEmpty() {
return length == 0;
}
/** Checks whether the circular queue is full or not. */
public boolean isFull() {
return length == q.length;
}
}
/**
* Your MyCircularQueue object will be instantiated and called as such:
* MyCircularQueue obj = new MyCircularQueue(k);
* boolean param_1 = obj.enQueue(value);
* boolean param_2 = obj.deQueue();
* int param_3 = obj.Front();
* int param_4 = obj.Rear();
* boolean param_5 = obj.isEmpty();
* boolean param_6 = obj.isFull();
LeetCode 官方解決方案 - 數(shù)組實現(xiàn)
class MyCircularQueue {
private int[] data;
private int head;
private int tail;
private int size;
/** Initialize your data structure here. Set the size of the queue to be k. */
public MyCircularQueue(int k) {
data = new int[k];
head = -1;
tail = -1;
size = k;
}
/** Insert an element into the circular queue. Return true if the operation is successful. */
public boolean enQueue(int value) {
if (isFull() == true) {
return false;
}
if (isEmpty() == true) {
head = 0;
}
tail = (tail + 1) % size;
data[tail] = value;
return true;
}
/** Delete an element from the circular queue. Return true if the operation is successful. */
public boolean deQueue() {
if (isEmpty() == true) {
return false;
}
if (head == tail) {
head = -1;
tail = -1;
return true;
}
head = (head + 1) % size;
return true;
}
/** Get the front item from the queue. */
public int Front() {
if (isEmpty() == true) {
return -1;
}
return data[head];
}
/** Get the last item from the queue. */
public int Rear() {
if (isEmpty() == true) {
return -1;
}
return data[tail];
}
/** Checks whether the circular queue is empty or not. */
public boolean isEmpty() {
return head == -1;
}
/** Checks whether the circular queue is full or not. */
public boolean isFull() {
return ((tail + 1) % size) == head;
}
}
/**
* Your MyCircularQueue object will be instantiated and called as such:
* MyCircularQueue obj = new MyCircularQueue(k);
* boolean param_1 = obj.enQueue(value);
* boolean param_2 = obj.deQueue();
* int param_3 = obj.Front();
* int param_4 = obj.Rear();
* boolean param_5 = obj.isEmpty();
* boolean param_6 = obj.isFull();
使用(雙)鏈表
class ListNode {
int val;
ListNode prev, next;
public ListNode(int x) {
val = x;
prev = null;
next = null;
}
}
class MyCircularQueue {
int queueSize, currSize;
ListNode head, tail;
/** Initialize your data structure here. Set the size of the queue to be k. */
public MyCircularQueue(int k) {
queueSize = k;
currSize = 0;
head = new ListNode(-1);
tail = new ListNode(-1);
head.next = tail;
tail.prev = head;
}
/** Insert an element into the circular queue. Return true if the operation is successful. */
public boolean enQueue(int value) {
if (isFull()) {
return false;
}
ListNode newNode = new ListNode(value);
newNode.next = tail;
newNode.prev = tail.prev;
tail.prev.next = newNode;
tail.prev = newNode;
currSize++;
return true;
}
/** Delete an element from the circular queue. Return true if the operation is successful. */
public boolean deQueue() {
if (isEmpty()) {
return false;
}
ListNode toBeDeleted = head.next;
head.next = toBeDeleted.next;
toBeDeleted.next.prev = head;
toBeDeleted.next = null;
toBeDeleted.prev = null;
currSize--;
return true;
}
/** Get the front item from the queue. */
public int Front() {
if(isEmpty()) {
return -1;
}
return head.next.val;
}
/** Get the last item from the queue. */
public int Rear() {
if(isEmpty()) {
return -1;
}
return tail.prev.val;
}
/** Checks whether the circular queue is empty or not. */
public boolean isEmpty() {
return currSize == 0;
}
/** Checks whether the circular queue is full or not. */
public boolean isFull() {
return currSize == queueSize;
}
}
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