leetcode-problemset/leetcode-cn/originData/design-circular-queue.json

{
    "data": {
        "question": {
            "questionId": "860",
            "questionFrontendId": "622",
            "categoryTitle": "Algorithms",
            "boundTopicId": 1129,
            "title": "Design Circular Queue",
            "titleSlug": "design-circular-queue",
            "content": "<p>Design your implementation of the circular queue. The circular queue is a linear data structure in which the operations are performed based on FIFO (First In First Out) principle and the last position is connected back to the first position to make a circle. It is also called &quot;Ring Buffer&quot;.</p>\n\n<p>One of the benefits of the circular queue is that we can make use of the spaces in front of the queue. In a normal queue, once the queue becomes full, we cannot insert the next element even if there is a space in front of the queue. But using the circular queue, we can use the space to store new values.</p>\n\n<p>Implementation the <code>MyCircularQueue</code> class:</p>\n\n<ul>\n\t<li><code>MyCircularQueue(k)</code> Initializes the object with the size of the queue to be <code>k</code>.</li>\n\t<li><code>int Front()</code> Gets the front item from the queue. If the queue is empty, return <code>-1</code>.</li>\n\t<li><code>int Rear()</code> Gets the last item from the queue. If the queue is empty, return <code>-1</code>.</li>\n\t<li><code>boolean enQueue(int value)</code> Inserts an element into the circular queue. Return <code>true</code> if the operation is successful.</li>\n\t<li><code>boolean deQueue()</code> Deletes an element from the circular queue. Return <code>true</code> if the operation is successful.</li>\n\t<li><code>boolean isEmpty()</code> Checks whether the circular queue is empty or not.</li>\n\t<li><code>boolean isFull()</code> Checks whether the circular queue is full or not.</li>\n</ul>\n\n<p>You must solve the problem without using the built-in queue data structure in your programming language.&nbsp;</p>\n\n<p>&nbsp;</p>\n<p><strong>Example 1:</strong></p>\n\n<pre>\n<strong>Input</strong>\n[&quot;MyCircularQueue&quot;, &quot;enQueue&quot;, &quot;enQueue&quot;, &quot;enQueue&quot;, &quot;enQueue&quot;, &quot;Rear&quot;, &quot;isFull&quot;, &quot;deQueue&quot;, &quot;enQueue&quot;, &quot;Rear&quot;]\n[[3], [1], [2], [3], [4], [], [], [], [4], []]\n<strong>Output</strong>\n[null, true, true, true, false, 3, true, true, true, 4]\n\n<strong>Explanation</strong>\nMyCircularQueue myCircularQueue = new MyCircularQueue(3);\nmyCircularQueue.enQueue(1); // return True\nmyCircularQueue.enQueue(2); // return True\nmyCircularQueue.enQueue(3); // return True\nmyCircularQueue.enQueue(4); // return False\nmyCircularQueue.Rear();     // return 3\nmyCircularQueue.isFull();   // return True\nmyCircularQueue.deQueue();  // return True\nmyCircularQueue.enQueue(4); // return True\nmyCircularQueue.Rear();     // return 4\n</pre>\n\n<p>&nbsp;</p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li><code>1 &lt;= k &lt;= 1000</code></li>\n\t<li><code>0 &lt;= value &lt;= 1000</code></li>\n\t<li>At most <code>3000</code> calls will be made to&nbsp;<code>enQueue</code>, <code>deQueue</code>,&nbsp;<code>Front</code>,&nbsp;<code>Rear</code>,&nbsp;<code>isEmpty</code>, and&nbsp;<code>isFull</code>.</li>\n</ul>\n",
            "translatedTitle": "设计循环队列",
            "translatedContent": "<p>设计你的循环队列实现。 循环队列是一种线性数据结构，其操作表现基于 FIFO（先进先出）原则并且队尾被连接在队首之后以形成一个循环。它也被称为&ldquo;环形缓冲器&rdquo;。</p>\n\n<p>循环队列的一个好处是我们可以利用这个队列之前用过的空间。在一个普通队列里，一旦一个队列满了，我们就不能插入下一个元素，即使在队列前面仍有空间。但是使用循环队列，我们能使用这些空间去存储新的值。</p>\n\n<p>你的实现应该支持如下操作：</p>\n\n<ul>\n\t<li><code>MyCircularQueue(k)</code>: 构造器，设置队列长度为 k 。</li>\n\t<li><code>Front</code>: 从队首获取元素。如果队列为空，返回 -1 。</li>\n\t<li><code>Rear</code>: 获取队尾元素。如果队列为空，返回 -1 。</li>\n\t<li><code>enQueue(value)</code>: 向循环队列插入一个元素。如果成功插入则返回真。</li>\n\t<li><code>deQueue()</code>: 从循环队列中删除一个元素。如果成功删除则返回真。</li>\n\t<li><code>isEmpty()</code>: 检查循环队列是否为空。</li>\n\t<li><code>isFull()</code>: 检查循环队列是否已满。</li>\n</ul>\n\n<p>&nbsp;</p>\n\n<p><strong>示例：</strong></p>\n\n<pre>MyCircularQueue circularQueue = new MyCircularQueue(3); // 设置长度为 3\ncircularQueue.enQueue(1); &nbsp;// 返回 true\ncircularQueue.enQueue(2); &nbsp;// 返回 true\ncircularQueue.enQueue(3); &nbsp;// 返回 true\ncircularQueue.enQueue(4); &nbsp;// 返回 false，队列已满\ncircularQueue.Rear(); &nbsp;// 返回 3\ncircularQueue.isFull(); &nbsp;// 返回 true\ncircularQueue.deQueue(); &nbsp;// 返回 true\ncircularQueue.enQueue(4); &nbsp;// 返回 true\ncircularQueue.Rear(); &nbsp;// 返回 4</pre>\n\n<p>&nbsp;</p>\n\n<p><strong>提示：</strong></p>\n\n<ul>\n\t<li>所有的值都在 0&nbsp;至 1000 的范围内；</li>\n\t<li>操作数将在 1 至 1000 的范围内；</li>\n\t<li>请不要使用内置的队列库。</li>\n</ul>\n",
            "isPaidOnly": false,
            "difficulty": "Medium",
            "likes": 266,
            "dislikes": 0,
            "isLiked": null,
            "similarQuestions": "[{\"title\": \"Design Circular Deque\", \"titleSlug\": \"design-circular-deque\", \"difficulty\": \"Medium\", \"translatedTitle\": \"\\u8bbe\\u8ba1\\u5faa\\u73af\\u53cc\\u7aef\\u961f\\u5217\"}]",
            "contributors": [],
            "langToValidPlayground": "{\"cpp\": false, \"java\": false, \"python\": false, \"python3\": false, \"mysql\": false, \"mssql\": false, \"oraclesql\": false, \"c\": false, \"csharp\": false, \"javascript\": false, \"ruby\": false, \"bash\": false, \"swift\": false, \"golang\": false, \"scala\": false, \"html\": false, \"pythonml\": false, \"kotlin\": false, \"rust\": false, \"php\": false, \"typescript\": false, \"racket\": false, \"erlang\": false, \"elixir\": false}",
            "topicTags": [
                {
                    "name": "Design",
                    "slug": "design",
                    "translatedName": "设计",
                    "__typename": "TopicTagNode"
                },
                {
                    "name": "Queue",
                    "slug": "queue",
                    "translatedName": "队列",
                    "__typename": "TopicTagNode"
                },
                {
                    "name": "Array",
                    "slug": "array",
                    "translatedName": "数组",
                    "__typename": "TopicTagNode"
                },
                {
                    "name": "Linked List",
                    "slug": "linked-list",
                    "translatedName": "链表",
                    "__typename": "TopicTagNode"
                }
            ],
            "companyTagStats": null,
            "codeSnippets": [
                {
                    "lang": "C++",
                    "langSlug": "cpp",
                    "code": "class MyCircularQueue {\npublic:\n    MyCircularQueue(int k) {\n\n    }\n    \n    bool enQueue(int value) {\n\n    }\n    \n    bool deQueue() {\n\n    }\n    \n    int Front() {\n\n    }\n    \n    int Rear() {\n\n    }\n    \n    bool isEmpty() {\n\n    }\n    \n    bool isFull() {\n\n    }\n};\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * MyCircularQueue* obj = new MyCircularQueue(k);\n * bool param_1 = obj->enQueue(value);\n * bool param_2 = obj->deQueue();\n * int param_3 = obj->Front();\n * int param_4 = obj->Rear();\n * bool param_5 = obj->isEmpty();\n * bool param_6 = obj->isFull();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Java",
                    "langSlug": "java",
                    "code": "class MyCircularQueue {\n\n    public MyCircularQueue(int k) {\n\n    }\n    \n    public boolean enQueue(int value) {\n\n    }\n    \n    public boolean deQueue() {\n\n    }\n    \n    public int Front() {\n\n    }\n    \n    public int Rear() {\n\n    }\n    \n    public boolean isEmpty() {\n\n    }\n    \n    public boolean isFull() {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * MyCircularQueue obj = new MyCircularQueue(k);\n * boolean param_1 = obj.enQueue(value);\n * boolean param_2 = obj.deQueue();\n * int param_3 = obj.Front();\n * int param_4 = obj.Rear();\n * boolean param_5 = obj.isEmpty();\n * boolean param_6 = obj.isFull();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Python",
                    "langSlug": "python",
                    "code": "class MyCircularQueue(object):\n\n    def __init__(self, k):\n        \"\"\"\n        :type k: int\n        \"\"\"\n\n\n    def enQueue(self, value):\n        \"\"\"\n        :type value: int\n        :rtype: bool\n        \"\"\"\n\n\n    def deQueue(self):\n        \"\"\"\n        :rtype: bool\n        \"\"\"\n\n\n    def Front(self):\n        \"\"\"\n        :rtype: int\n        \"\"\"\n\n\n    def Rear(self):\n        \"\"\"\n        :rtype: int\n        \"\"\"\n\n\n    def isEmpty(self):\n        \"\"\"\n        :rtype: bool\n        \"\"\"\n\n\n    def isFull(self):\n        \"\"\"\n        :rtype: bool\n        \"\"\"\n\n\n\n# Your MyCircularQueue object will be instantiated and called as such:\n# obj = MyCircularQueue(k)\n# param_1 = obj.enQueue(value)\n# param_2 = obj.deQueue()\n# param_3 = obj.Front()\n# param_4 = obj.Rear()\n# param_5 = obj.isEmpty()\n# param_6 = obj.isFull()",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Python3",
                    "langSlug": "python3",
                    "code": "class MyCircularQueue:\n\n    def __init__(self, k: int):\n\n\n    def enQueue(self, value: int) -> bool:\n\n\n    def deQueue(self) -> bool:\n\n\n    def Front(self) -> int:\n\n\n    def Rear(self) -> int:\n\n\n    def isEmpty(self) -> bool:\n\n\n    def isFull(self) -> bool:\n\n\n\n# Your MyCircularQueue object will be instantiated and called as such:\n# obj = MyCircularQueue(k)\n# param_1 = obj.enQueue(value)\n# param_2 = obj.deQueue()\n# param_3 = obj.Front()\n# param_4 = obj.Rear()\n# param_5 = obj.isEmpty()\n# param_6 = obj.isFull()",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "C",
                    "langSlug": "c",
                    "code": "\n\n\ntypedef struct {\n\n} MyCircularQueue;\n\n\nMyCircularQueue* myCircularQueueCreate(int k) {\n\n}\n\nbool myCircularQueueEnQueue(MyCircularQueue* obj, int value) {\n\n}\n\nbool myCircularQueueDeQueue(MyCircularQueue* obj) {\n\n}\n\nint myCircularQueueFront(MyCircularQueue* obj) {\n\n}\n\nint myCircularQueueRear(MyCircularQueue* obj) {\n\n}\n\nbool myCircularQueueIsEmpty(MyCircularQueue* obj) {\n\n}\n\nbool myCircularQueueIsFull(MyCircularQueue* obj) {\n\n}\n\nvoid myCircularQueueFree(MyCircularQueue* obj) {\n\n}\n\n/**\n * Your MyCircularQueue struct will be instantiated and called as such:\n * MyCircularQueue* obj = myCircularQueueCreate(k);\n * bool param_1 = myCircularQueueEnQueue(obj, value);\n \n * bool param_2 = myCircularQueueDeQueue(obj);\n \n * int param_3 = myCircularQueueFront(obj);\n \n * int param_4 = myCircularQueueRear(obj);\n \n * bool param_5 = myCircularQueueIsEmpty(obj);\n \n * bool param_6 = myCircularQueueIsFull(obj);\n \n * myCircularQueueFree(obj);\n*/",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "C#",
                    "langSlug": "csharp",
                    "code": "public class MyCircularQueue {\n\n    public MyCircularQueue(int k) {\n\n    }\n    \n    public bool EnQueue(int value) {\n\n    }\n    \n    public bool DeQueue() {\n\n    }\n    \n    public int Front() {\n\n    }\n    \n    public int Rear() {\n\n    }\n    \n    public bool IsEmpty() {\n\n    }\n    \n    public bool IsFull() {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * MyCircularQueue obj = new MyCircularQueue(k);\n * bool param_1 = obj.EnQueue(value);\n * bool param_2 = obj.DeQueue();\n * int param_3 = obj.Front();\n * int param_4 = obj.Rear();\n * bool param_5 = obj.IsEmpty();\n * bool param_6 = obj.IsFull();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "JavaScript",
                    "langSlug": "javascript",
                    "code": "/**\n * @param {number} k\n */\nvar MyCircularQueue = function(k) {\n\n};\n\n/** \n * @param {number} value\n * @return {boolean}\n */\nMyCircularQueue.prototype.enQueue = function(value) {\n\n};\n\n/**\n * @return {boolean}\n */\nMyCircularQueue.prototype.deQueue = function() {\n\n};\n\n/**\n * @return {number}\n */\nMyCircularQueue.prototype.Front = function() {\n\n};\n\n/**\n * @return {number}\n */\nMyCircularQueue.prototype.Rear = function() {\n\n};\n\n/**\n * @return {boolean}\n */\nMyCircularQueue.prototype.isEmpty = function() {\n\n};\n\n/**\n * @return {boolean}\n */\nMyCircularQueue.prototype.isFull = function() {\n\n};\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * var obj = new MyCircularQueue(k)\n * var param_1 = obj.enQueue(value)\n * var param_2 = obj.deQueue()\n * var param_3 = obj.Front()\n * var param_4 = obj.Rear()\n * var param_5 = obj.isEmpty()\n * var param_6 = obj.isFull()\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Ruby",
                    "langSlug": "ruby",
                    "code": "class MyCircularQueue\n\n=begin\n    :type k: Integer\n=end\n    def initialize(k)\n\n    end\n\n\n=begin\n    :type value: Integer\n    :rtype: Boolean\n=end\n    def en_queue(value)\n\n    end\n\n\n=begin\n    :rtype: Boolean\n=end\n    def de_queue()\n\n    end\n\n\n=begin\n    :rtype: Integer\n=end\n    def front()\n\n    end\n\n\n=begin\n    :rtype: Integer\n=end\n    def rear()\n\n    end\n\n\n=begin\n    :rtype: Boolean\n=end\n    def is_empty()\n\n    end\n\n\n=begin\n    :rtype: Boolean\n=end\n    def is_full()\n\n    end\n\n\nend\n\n# Your MyCircularQueue object will be instantiated and called as such:\n# obj = MyCircularQueue.new(k)\n# param_1 = obj.en_queue(value)\n# param_2 = obj.de_queue()\n# param_3 = obj.front()\n# param_4 = obj.rear()\n# param_5 = obj.is_empty()\n# param_6 = obj.is_full()",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Swift",
                    "langSlug": "swift",
                    "code": "\nclass MyCircularQueue {\n\n    init(_ k: Int) {\n\n    }\n    \n    func enQueue(_ value: Int) -> Bool {\n\n    }\n    \n    func deQueue() -> Bool {\n\n    }\n    \n    func Front() -> Int {\n\n    }\n    \n    func Rear() -> Int {\n\n    }\n    \n    func isEmpty() -> Bool {\n\n    }\n    \n    func isFull() -> Bool {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * let obj = MyCircularQueue(k)\n * let ret_1: Bool = obj.enQueue(value)\n * let ret_2: Bool = obj.deQueue()\n * let ret_3: Int = obj.Front()\n * let ret_4: Int = obj.Rear()\n * let ret_5: Bool = obj.isEmpty()\n * let ret_6: Bool = obj.isFull()\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Go",
                    "langSlug": "golang",
                    "code": "type MyCircularQueue struct {\n\n}\n\n\nfunc Constructor(k int) MyCircularQueue {\n\n}\n\n\nfunc (this *MyCircularQueue) EnQueue(value int) bool {\n\n}\n\n\nfunc (this *MyCircularQueue) DeQueue() bool {\n\n}\n\n\nfunc (this *MyCircularQueue) Front() int {\n\n}\n\n\nfunc (this *MyCircularQueue) Rear() int {\n\n}\n\n\nfunc (this *MyCircularQueue) IsEmpty() bool {\n\n}\n\n\nfunc (this *MyCircularQueue) IsFull() bool {\n\n}\n\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * obj := Constructor(k);\n * param_1 := obj.EnQueue(value);\n * param_2 := obj.DeQueue();\n * param_3 := obj.Front();\n * param_4 := obj.Rear();\n * param_5 := obj.IsEmpty();\n * param_6 := obj.IsFull();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Scala",
                    "langSlug": "scala",
                    "code": "class MyCircularQueue(_k: Int) {\n\n    def enQueue(value: Int): Boolean = {\n\n    }\n\n    def deQueue(): Boolean = {\n\n    }\n\n    def Front(): Int = {\n\n    }\n\n    def Rear(): Int = {\n\n    }\n\n    def isEmpty(): Boolean = {\n\n    }\n\n    def isFull(): Boolean = {\n\n    }\n\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * var obj = new MyCircularQueue(k)\n * var param_1 = obj.enQueue(value)\n * var param_2 = obj.deQueue()\n * var param_3 = obj.Front()\n * var param_4 = obj.Rear()\n * var param_5 = obj.isEmpty()\n * var param_6 = obj.isFull()\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Kotlin",
                    "langSlug": "kotlin",
                    "code": "class MyCircularQueue(k: Int) {\n\n    fun enQueue(value: Int): Boolean {\n\n    }\n\n    fun deQueue(): Boolean {\n\n    }\n\n    fun Front(): Int {\n\n    }\n\n    fun Rear(): Int {\n\n    }\n\n    fun isEmpty(): Boolean {\n\n    }\n\n    fun isFull(): Boolean {\n\n    }\n\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * var obj = MyCircularQueue(k)\n * var param_1 = obj.enQueue(value)\n * var param_2 = obj.deQueue()\n * var param_3 = obj.Front()\n * var param_4 = obj.Rear()\n * var param_5 = obj.isEmpty()\n * var param_6 = obj.isFull()\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Rust",
                    "langSlug": "rust",
                    "code": "struct MyCircularQueue {\n\n}\n\n\n/**\n * `&self` means the method takes an immutable reference.\n * If you need a mutable reference, change it to `&mut self` instead.\n */\nimpl MyCircularQueue {\n\n    fn new(k: i32) -> Self {\n\n    }\n    \n    fn en_queue(&self, value: i32) -> bool {\n\n    }\n    \n    fn de_queue(&self) -> bool {\n\n    }\n    \n    fn front(&self) -> i32 {\n\n    }\n    \n    fn rear(&self) -> i32 {\n\n    }\n    \n    fn is_empty(&self) -> bool {\n\n    }\n    \n    fn is_full(&self) -> bool {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * let obj = MyCircularQueue::new(k);\n * let ret_1: bool = obj.en_queue(value);\n * let ret_2: bool = obj.de_queue();\n * let ret_3: i32 = obj.front();\n * let ret_4: i32 = obj.rear();\n * let ret_5: bool = obj.is_empty();\n * let ret_6: bool = obj.is_full();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "PHP",
                    "langSlug": "php",
                    "code": "class MyCircularQueue {\n    /**\n     * @param Integer $k\n     */\n    function __construct($k) {\n\n    }\n\n    /**\n     * @param Integer $value\n     * @return Boolean\n     */\n    function enQueue($value) {\n\n    }\n\n    /**\n     * @return Boolean\n     */\n    function deQueue() {\n\n    }\n\n    /**\n     * @return Integer\n     */\n    function Front() {\n\n    }\n\n    /**\n     * @return Integer\n     */\n    function Rear() {\n\n    }\n\n    /**\n     * @return Boolean\n     */\n    function isEmpty() {\n\n    }\n\n    /**\n     * @return Boolean\n     */\n    function isFull() {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * $obj = MyCircularQueue($k);\n * $ret_1 = $obj->enQueue($value);\n * $ret_2 = $obj->deQueue();\n * $ret_3 = $obj->Front();\n * $ret_4 = $obj->Rear();\n * $ret_5 = $obj->isEmpty();\n * $ret_6 = $obj->isFull();\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "TypeScript",
                    "langSlug": "typescript",
                    "code": "class MyCircularQueue {\n    constructor(k: number) {\n\n    }\n\n    enQueue(value: number): boolean {\n\n    }\n\n    deQueue(): boolean {\n\n    }\n\n    Front(): number {\n\n    }\n\n    Rear(): number {\n\n    }\n\n    isEmpty(): boolean {\n\n    }\n\n    isFull(): boolean {\n\n    }\n}\n\n/**\n * Your MyCircularQueue object will be instantiated and called as such:\n * var obj = new MyCircularQueue(k)\n * var param_1 = obj.enQueue(value)\n * var param_2 = obj.deQueue()\n * var param_3 = obj.Front()\n * var param_4 = obj.Rear()\n * var param_5 = obj.isEmpty()\n * var param_6 = obj.isFull()\n */",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Racket",
                    "langSlug": "racket",
                    "code": "(define my-circular-queue%\n  (class object%\n    (super-new)\n\n    ; k : exact-integer?\n    (init-field\n      k)\n    \n    ; en-queue : exact-integer? -> boolean?\n    (define/public (en-queue value)\n\n      )\n    ; de-queue : -> boolean?\n    (define/public (de-queue)\n\n      )\n    ; front : -> exact-integer?\n    (define/public (front)\n\n      )\n    ; rear : -> exact-integer?\n    (define/public (rear)\n\n      )\n    ; is-empty : -> boolean?\n    (define/public (is-empty)\n\n      )\n    ; is-full : -> boolean?\n    (define/public (is-full)\n\n      )))\n\n;; Your my-circular-queue% object will be instantiated and called as such:\n;; (define obj (new my-circular-queue% [k k]))\n;; (define param_1 (send obj en-queue value))\n;; (define param_2 (send obj de-queue))\n;; (define param_3 (send obj front))\n;; (define param_4 (send obj rear))\n;; (define param_5 (send obj is-empty))\n;; (define param_6 (send obj is-full))",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Erlang",
                    "langSlug": "erlang",
                    "code": "-spec my_circular_queue_init_(K :: integer()) -> any().\nmy_circular_queue_init_(K) ->\n  .\n\n-spec my_circular_queue_en_queue(Value :: integer()) -> boolean().\nmy_circular_queue_en_queue(Value) ->\n  .\n\n-spec my_circular_queue_de_queue() -> boolean().\nmy_circular_queue_de_queue() ->\n  .\n\n-spec my_circular_queue_front() -> integer().\nmy_circular_queue_front() ->\n  .\n\n-spec my_circular_queue_rear() -> integer().\nmy_circular_queue_rear() ->\n  .\n\n-spec my_circular_queue_is_empty() -> boolean().\nmy_circular_queue_is_empty() ->\n  .\n\n-spec my_circular_queue_is_full() -> boolean().\nmy_circular_queue_is_full() ->\n  .\n\n\n%% Your functions will be called as such:\n%% my_circular_queue_init_(K),\n%% Param_1 = my_circular_queue_en_queue(Value),\n%% Param_2 = my_circular_queue_de_queue(),\n%% Param_3 = my_circular_queue_front(),\n%% Param_4 = my_circular_queue_rear(),\n%% Param_5 = my_circular_queue_is_empty(),\n%% Param_6 = my_circular_queue_is_full(),\n\n%% my_circular_queue_init_ will be called before every test case, in which you can do some necessary initializations.",
                    "__typename": "CodeSnippetNode"
                },
                {
                    "lang": "Elixir",
                    "langSlug": "elixir",
                    "code": "defmodule MyCircularQueue do\n  @spec init_(k :: integer) :: any\n  def init_(k) do\n\n  end\n\n  @spec en_queue(value :: integer) :: boolean\n  def en_queue(value) do\n\n  end\n\n  @spec de_queue() :: boolean\n  def de_queue() do\n\n  end\n\n  @spec front() :: integer\n  def front() do\n\n  end\n\n  @spec rear() :: integer\n  def rear() do\n\n  end\n\n  @spec is_empty() :: boolean\n  def is_empty() do\n\n  end\n\n  @spec is_full() :: boolean\n  def is_full() do\n\n  end\nend\n\n# Your functions will be called as such:\n# MyCircularQueue.init_(k)\n# param_1 = MyCircularQueue.en_queue(value)\n# param_2 = MyCircularQueue.de_queue()\n# param_3 = MyCircularQueue.front()\n# param_4 = MyCircularQueue.rear()\n# param_5 = MyCircularQueue.is_empty()\n# param_6 = MyCircularQueue.is_full()\n\n# MyCircularQueue.init_ will be called before every test case, in which you can do some necessary initializations.",
                    "__typename": "CodeSnippetNode"
                }
            ],
            "stats": "{\"totalAccepted\": \"80.3K\", \"totalSubmission\": \"180.9K\", \"totalAcceptedRaw\": 80255, \"totalSubmissionRaw\": 180901, \"acRate\": \"44.4%\"}",
            "hints": [],
            "solution": null,
            "status": null,
            "sampleTestCase": "[\"MyCircularQueue\",\"enQueue\",\"enQueue\",\"enQueue\",\"enQueue\",\"Rear\",\"isFull\",\"deQueue\",\"enQueue\",\"Rear\"]\n[[3],[1],[2],[3],[4],[],[],[],[4],[]]",
            "metaData": "{\n  \"classname\": \"MyCircularQueue\",\n  \"constructor\": {\n    \"params\": [\n      {\n        \"type\": \"integer\",\n        \"name\": \"k\"\n      }\n    ]\n  },\n  \"methods\": [\n    {\n      \"params\": [\n        {\n          \"type\": \"integer\",\n          \"name\": \"value\"\n        }\n      ],\n      \"name\": \"enQueue\",\n      \"return\": {\n        \"type\": \"boolean\"\n      }\n    },\n    {\n      \"params\": [],\n      \"name\": \"deQueue\",\n      \"return\": {\n        \"type\": \"boolean\"\n      }\n    },\n    {\n      \"params\": [],\n      \"name\": \"Front\",\n      \"return\": {\n        \"type\": \"integer\"\n      }\n    },\n    {\n      \"params\": [],\n      \"name\": \"Rear\",\n      \"return\": {\n        \"type\": \"integer\"\n      }\n    },\n    {\n      \"params\": [],\n      \"name\": \"isEmpty\",\n      \"return\": {\n        \"type\": \"boolean\"\n      }\n    },\n    {\n      \"params\": [],\n      \"name\": \"isFull\",\n      \"return\": {\n        \"type\": \"boolean\"\n      }\n    }\n  ],\n  \"return\": {\n    \"type\": \"boolean\"\n  },\n  \"systemdesign\": true\n}",
            "judgerAvailable": true,
            "judgeType": "large",
            "mysqlSchemas": [],
            "enableRunCode": true,
            "envInfo": "{\"cpp\":[\"C++\",\"<p>\\u7248\\u672c\\uff1a<code>clang 11<\\/code> \\u91c7\\u7528\\u6700\\u65b0C++ 17\\u6807\\u51c6\\u3002<\\/p>\\r\\n\\r\\n<p>\\u7f16\\u8bd1\\u65f6\\uff0c\\u5c06\\u4f1a\\u91c7\\u7528<code>-O2<\\/code>\\u7ea7\\u4f18\\u5316\\u3002<a href=\\\"https:\\/\\/github.com\\/google\\/sanitizers\\/wiki\\/AddressSanitizer\\\" target=\\\"_blank\\\">AddressSanitizer<\\/a> \\u4e5f\\u88ab\\u5f00\\u542f\\u6765\\u68c0\\u6d4b<code>out-of-bounds<\\/code>\\u548c<code>use-after-free<\\/code>\\u9519\\u8bef\\u3002<\\/p>\\r\\n\\r\\n<p>\\u4e3a\\u4e86\\u4f7f\\u7528\\u65b9\\u4fbf\\uff0c\\u5927\\u90e8\\u5206\\u6807\\u51c6\\u5e93\\u7684\\u5934\\u6587\\u4ef6\\u5df2\\u7ecf\\u88ab\\u81ea\\u52a8\\u5bfc\\u5165\\u3002<\\/p>\"],\"java\":[\"Java\",\"<p>\\u7248\\u672c\\uff1a<code>OpenJDK 17<\\/code>\\u3002\\u53ef\\u4ee5\\u4f7f\\u7528Java 8\\u7684\\u7279\\u6027\\u4f8b\\u5982\\uff0clambda expressions \\u548c stream API\\u3002<\\/p>\\r\\n\\r\\n<p>\\u4e3a\\u4e86\\u65b9\\u4fbf\\u8d77\\u89c1\\uff0c\\u5927\\u90e8\\u5206\\u6807\\u51c6\\u5e93\\u7684\\u5934\\u6587\\u4ef6\\u5df2\\u88ab\\u5bfc\\u5165\\u3002<\\/p>\\r\\n\\r\\n<p>\\u5305\\u542b Pair \\u7c7b: https:\\/\\/docs.oracle.com\\/javase\\/8\\/javafx\\/api\\/javafx\\/util\\/Pair.html <\\/p>\"],\"python\":[\"Python\",\"<p>\\u7248\\u672c\\uff1a <code>Python 2.7.12<\\/code><\\/p>\\r\\n\\r\\n<p>\\u4e3a\\u4e86\\u65b9\\u4fbf\\u8d77\\u89c1\\uff0c\\u5927\\u90e8\\u5206\\u5e38\\u7528\\u5e93\\u5df2\\u7ecf\\u88ab\\u81ea\\u52a8 \\u5bfc\\u5165\\uff0c\\u5982\\uff1a<a href=\\\"https:\\/\\/docs.python.org\\/2\\/library\\/array.html\\\" target=\\\"_blank\\\">array<\\/a>, <a href=\\\"https:\\/\\/docs.python.org\\/2\\/library\\/bisect.html\\\" target=\\\"_blank\\\">bisect<\\/a>, <a href=\\\"https:\\/\\/docs.python.org\\/2\\/library\\/collections.html\\\" target=\\\"_blank\\\">collections<\\/a>\\u3002\\u5982\\u679c\\u60a8\\u9700\\u8981\\u4f7f\\u7528\\u5176\\u4ed6\\u5e93\\u51fd\\u6570\\uff0c\\u8bf7\\u81ea\\u884c\\u5bfc\\u5165\\u3002<\\/p>\\r\\n\\r\\n<p>\\u6ce8\\u610f Python 2.7 <a href=\\\"https:\\/\\/www.python.org\\/dev\\/peps\\/pep-0373\\/\\\" target=\\\"_blank\\\">\\u5c06\\u57282020\\u5e74\\u540e\\u4e0d\\u518d\\u7ef4\\u62a4<\\/a>\\u3002 \\u5982\\u60f3\\u4f7f\\u7528\\u6700\\u65b0\\u7248\\u7684Python\\uff0c\\u8bf7\\u9009\\u62e9Python 3\\u3002<\\/p>\"],\"c\":[\"C\",\"<p>\\u7248\\u672c\\uff1a<code>GCC 8.2<\\/code>\\uff0c\\u91c7\\u7528GNU99\\u6807\\u51c6\\u3002<\\/p>\\r\\n\\r\\n<p>\\u7f16\\u8bd1\\u65f6\\uff0c\\u5c06\\u4f1a\\u91c7\\u7528<code>-O1<\\/code>\\u7ea7\\u4f18\\u5316\\u3002 <a href=\\\"https:\\/\\/github.com\\/google\\/sanitizers\\/wiki\\/AddressSanitizer\\\" target=\\\"_blank\\\">AddressSanitizer<\\/a>\\u4e5f\\u88ab\\u5f00\\u542f\\u6765\\u68c0\\u6d4b<code>out-of-bounds<\\/code>\\u548c<code>use-after-free<\\/code>\\u9519\\u8bef\\u3002<\\/p>\\r\\n\\r\\n<p>\\u4e3a\\u4e86\\u4f7f\\u7528\\u65b9\\u4fbf\\uff0c\\u5927\\u90e8\\u5206\\u6807\\u51c6\\u5e93\\u7684\\u5934\\u6587\\u4ef6\\u5df2\\u7ecf\\u88ab\\u81ea\\u52a8\\u5bfc\\u5165\\u3002<\\/p>\\r\\n\\r\\n<p>\\u5982\\u60f3\\u4f7f\\u7528\\u54c8\\u5e0c\\u8868\\u8fd0\\u7b97, \\u60a8\\u53ef\\u4ee5\\u4f7f\\u7528 <a href=\\\"https:\\/\\/troydhanson.github.io\\/uthash\\/\\\" target=\\\"_blank\\\">uthash<\\/a>\\u3002 \\\"uthash.h\\\"\\u5df2\\u7ecf\\u9ed8\\u8ba4\\u88ab\\u5bfc\\u5165\\u3002\\u8bf7\\u770b\\u5982\\u4e0b\\u793a\\u4f8b:<\\/p>\\r\\n\\r\\n<p><b>1. \\u5f80\\u54c8\\u5e0c\\u8868\\u4e2d\\u6dfb\\u52a0\\u4e00\\u4e2a\\u5bf9\\u8c61\\uff1a<\\/b>\\r\\n<pre>\\r\\nstruct hash_entry {\\r\\n    int id;            \\/* we'll use this field as the key *\\/\\r\\n    char name[10];\\r\\n    UT_hash_handle hh; \\/* makes this structure hashable *\\/\\r\\n};\\r\\n\\r\\nstruct hash_entry *users = NULL;\\r\\n\\r\\nvoid add_user(struct hash_entry *s) {\\r\\n    HASH_ADD_INT(users, id, s);\\r\\n}\\r\\n<\\/pre>\\r\\n<\\/p>\\r\\n\\r\\n<p><b>2. \\u5728\\u54c8\\u5e0c\\u8868\\u4e2d\\u67e5\\u627e\\u4e00\\u4e2a\\u5bf9\\u8c61\\uff1a<\\/b>\\r\\n<pre>\\r\\nstruct hash_entry *find_user(int user_id) {\\r\\n    struct hash_entry *s;\\r\\n    HASH_FIND_INT(users, &user_id, s);\\r\\n    return s;\\r\\n}\\r\\n<\\/pre>\\r\\n<\\/p>\\r\\n\\r\\n<p><b>3. \\u4ece\\u54c8\\u5e0c\\u8868\\u4e2d\\u5220\\u9664\\u4e00\\u4e2a\\u5bf9\\u8c61\\uff1a<\\/b>\\r\\n<pre>\\r\\nvoid delete_user(struct hash_entry *user) {\\r\\n    HASH_DEL(users, user);  \\r\\n}\\r\\n<\\/pre>\\r\\n<\\/p>\"],\"csharp\":[\"C#\",\"<p><a href=\\\"https:\\/\\/docs.microsoft.com\\/en-us\\/dotnet\\/csharp\\/whats-new\\/csharp-9\\\" target=\\\"_blank\\\">C# 10<\\/a> \\u8fd0\\u884c\\u5728 .NET 6 \\u4e0a<\\/p>\\r\\n\\r\\n<p>\\u60a8\\u7684\\u4ee3\\u7801\\u5728\\u7f16\\u8bd1\\u65f6\\u9ed8\\u8ba4\\u5f00\\u542f\\u4e86debug\\u6807\\u8bb0(<code>\\/debug:pdbonly<\\/code>)\\u3002<\\/p>\"],\"javascript\":[\"JavaScript\",\"<p>\\u7248\\u672c\\uff1a<code>Node.js 16.13.2<\\/code><\\/p>\\r\\n\\r\\n<p>\\u60a8\\u7684\\u4ee3\\u7801\\u5728\\u6267\\u884c\\u65f6\\u5c06\\u5e26\\u4e0a <code>--harmony<\\/code> \\u6807\\u8bb0\\u6765\\u5f00\\u542f <a href=\\\"http:\\/\\/node.green\\/\\\" target=\\\"_blank\\\">\\u65b0\\u7248ES6\\u7279\\u6027<\\/a>\\u3002<\\/p>\\r\\n\\r\\n<p><a href=\\\"https:\\/\\/lodash.com\\\" target=\\\"_blank\\\">lodash.js<\\/a> \\u5e93\\u5df2\\u7ecf\\u9ed8\\u8ba4\\u88ab\\u5305\\u542b\\u3002<\\/p>\\r\\n\\r\\n<p> \\u5982\\u9700\\u4f7f\\u7528\\u961f\\u5217\\/\\u4f18\\u5148\\u961f\\u5217\\uff0c\\u60a8\\u53ef\\u4f7f\\u7528 <a href=\\\"https:\\/\\/github.com\\/datastructures-js\\/priority-queue\\\" target=\\\"_blank\\\"> datastructures-js\\/priority-queue<\\/a> \\u548c <a href=\\\"https:\\/\\/github.com\\/datastructures-js\\/queue\\\" target=\\\"_blank\\\"> datastructures-js\\/queue<\\/a>\\u3002<\\/p>\"],\"ruby\":[\"Ruby\",\"<p>\\u4f7f\\u7528<code>Ruby 3.1<\\/code>\\u6267\\u884c<\\/p>\\r\\n\\r\\n<p>\\u4e00\\u4e9b\\u5e38\\u7528\\u7684\\u6570\\u636e\\u7ed3\\u6784\\u5df2\\u5728 Algorithms \\u6a21\\u5757\\u4e2d\\u63d0\\u4f9b\\uff1ahttps:\\/\\/www.rubydoc.info\\/github\\/kanwei\\/algorithms\\/Algorithms<\\/p>\"],\"swift\":[\"Swift\",\"<p>\\u7248\\u672c\\uff1a<code>Swift 5.5.2<\\/code><\\/p>\\r\\n\\r\\n<p>\\u6211\\u4eec\\u901a\\u5e38\\u4fdd\\u8bc1\\u66f4\\u65b0\\u5230 <a href=\\\"https:\\/\\/swift.org\\/download\\/\\\" target=\\\"_blank\\\">Apple\\u653e\\u51fa\\u7684\\u6700\\u65b0\\u7248Swift<\\/a>\\u3002\\u5982\\u679c\\u60a8\\u53d1\\u73b0Swift\\u4e0d\\u662f\\u6700\\u65b0\\u7248\\u7684\\uff0c\\u8bf7\\u8054\\u7cfb\\u6211\\u4eec\\uff01\\u6211\\u4eec\\u5c06\\u5c3d\\u5feb\\u66f4\\u65b0\\u3002<\\/p>\"],\"golang\":[\"Go\",\"<p>\\u7248\\u672c\\uff1a<code>Go 1.17<\\/code><\\/p>\\r\\n\\r\\n<p>\\u652f\\u6301 <a href=\\\"https:\\/\\/godoc.org\\/github.com\\/emirpasic\\/gods\\\" target=\\\"_blank\\\">https:\\/\\/godoc.org\\/github.com\\/emirpasic\\/gods<\\/a> \\u7b2c\\u4e09\\u65b9\\u5e93\\u3002<\\/p>\"],\"python3\":[\"Python3\",\"<p>\\u7248\\u672c\\uff1a<code>Python 3.10<\\/code><\\/p>\\r\\n\\r\\n<p>\\u4e3a\\u4e86\\u65b9\\u4fbf\\u8d77\\u89c1\\uff0c\\u5927\\u90e8\\u5206\\u5e38\\u7528\\u5e93\\u5df2\\u7ecf\\u88ab\\u81ea\\u52a8 \\u5bfc\\u5165\\uff0c\\u5982<a href=\\\"https:\\/\\/docs.python.org\\/3\\/library\\/array.html\\\" target=\\\"_blank\\\">array<\\/a>, <a href=\\\"https:\\/\\/docs.python.org\\/3\\/library\\/bisect.html\\\" target=\\\"_blank\\\">bisect<\\/a>, <a href=\\\"https:\\/\\/docs.python.org\\/3\\/library\\/collections.html\\\" target=\\\"_blank\\\">collections<\\/a>\\u3002 \\u5982\\u679c\\u60a8\\u9700\\u8981\\u4f7f\\u7528\\u5176\\u4ed6\\u5e93\\u51fd\\u6570\\uff0c\\u8bf7\\u81ea\\u884c\\u5bfc\\u5165\\u3002<\\/p>\\r\\n\\r\\n<p>\\u5982\\u9700\\u4f7f\\u7528 Map\\/TreeMap \\u6570\\u636e\\u7ed3\\u6784\\uff0c\\u60a8\\u53ef\\u4f7f\\u7528 <a href=\\\"http:\\/\\/www.grantjenks.com\\/docs\\/sortedcontainers\\/\\\" target=\\\"_blank\\\">sortedcontainers<\\/a> \\u5e93\\u3002<\\/p>\"],\"scala\":[\"Scala\",\"<p>\\u7248\\u672c\\uff1a<code>Scala 2.13<\\/code><\\/p>\"],\"kotlin\":[\"Kotlin\",\"<p>\\u7248\\u672c\\uff1a<code>Kotlin 1.3.10<\\/code><\\/p>\"],\"rust\":[\"Rust\",\"<p>\\u7248\\u672c\\uff1a<code>rust 1.58.1<\\/code><\\/p>\\r\\n\\r\\n<p>\\u652f\\u6301 crates.io \\u7684 <a href=\\\"https:\\/\\/crates.io\\/crates\\/rand\\\" target=\\\"_blank\\\">rand<\\/a><\\/p>\"],\"php\":[\"PHP\",\"<p><code>PHP 8.1<\\/code>.<\\/p>\\r\\n\\r\\n<p>With bcmath module.<\\/p>\"],\"typescript\":[\"TypeScript\",\"<p>TypeScript 4.5.4<\\/p>\\r\\n\\r\\n<p>Compile Options: --alwaysStrict --strictBindCallApply --strictFunctionTypes --target ES2020<\\/p>\"],\"racket\":[\"Racket\",\"<p><a href=\\\"https:\\/\\/docs.racket-lang.org\\/guide\\/performance.html#%28tech._c%29\\\" target=\\\"_blank\\\">Racket CS<\\/a> v8.3<\\/p>\\r\\n\\r\\n<p>\\u4f7f\\u7528 #lang racket<\\/p>\\r\\n\\r\\n<p>\\u5df2\\u9884\\u5148 (require data\\/gvector data\\/queue data\\/order data\\/heap). \\u82e5\\u9700\\u4f7f\\u7528\\u5176\\u5b83\\u6570\\u636e\\u7ed3\\u6784\\uff0c\\u53ef\\u81ea\\u884c require\\u3002<\\/p>\"],\"erlang\":[\"Erlang\",\"Erlang\\/OTP 24.2\"],\"elixir\":[\"Elixir\",\"Elixir 1.13.0 with Erlang\\/OTP 24.2\"]}",
            "book": null,
            "isSubscribed": false,
            "isDailyQuestion": false,
            "dailyRecordStatus": null,
            "editorType": "CKEDITOR",
            "ugcQuestionId": null,
            "style": "LEETCODE",
            "exampleTestcases": "[\"MyCircularQueue\",\"enQueue\",\"enQueue\",\"enQueue\",\"enQueue\",\"Rear\",\"isFull\",\"deQueue\",\"enQueue\",\"Rear\"]\n[[3],[1],[2],[3],[4],[],[],[],[4],[]]",
            "__typename": "QuestionNode"
        }
    }
}