hello-algo/zh-hant/codes/cpp/chapter_stack_and_queue/array_deque.cpp

/**
 * File: array_deque.cpp
 * Created Time: 2023-03-02
 * Author: krahets (krahets@163.com)
 */

#include "../utils/common.hpp"

/* 基於環形陣列實現的雙向佇列 */
class ArrayDeque {
  private:
    vector<int> nums; // 用於儲存雙向佇列元素的陣列
    int front;        // 佇列首指標，指向佇列首元素
    int queSize;      // 雙向佇列長度

  public:
    /* 建構子 */
    ArrayDeque(int capacity) {
        nums.resize(capacity);
        front = queSize = 0;
    }

    /* 獲取雙向佇列的容量 */
    int capacity() {
        return nums.size();
    }

    /* 獲取雙向佇列的長度 */
    int size() {
        return queSize;
    }

    /* 判斷雙向佇列是否為空 */
    bool isEmpty() {
        return queSize == 0;
    }

    /* 計算環形陣列索引 */
    int index(int i) {
        // 透過取餘操作實現陣列首尾相連
        // 當 i 越過陣列尾部後，回到頭部
        // 當 i 越過陣列頭部後，回到尾部
        return (i + capacity()) % capacity();
    }

    /* 佇列首入列 */
    void pushFirst(int num) {
        if (queSize == capacity()) {
            cout << "雙向佇列已滿" << endl;
            return;
        }
        // 佇列首指標向左移動一位
        // 透過取餘操作實現 front 越過陣列頭部後回到尾部
        front = index(front - 1);
        // 將 num 新增至佇列首
        nums[front] = num;
        queSize++;
    }

    /* 佇列尾入列 */
    void pushLast(int num) {
        if (queSize == capacity()) {
            cout << "雙向佇列已滿" << endl;
            return;
        }
        // 計算佇列尾指標，指向佇列尾索引 + 1
        int rear = index(front + queSize);
        // 將 num 新增至佇列尾
        nums[rear] = num;
        queSize++;
    }

    /* 佇列首出列 */
    int popFirst() {
        int num = peekFirst();
        // 佇列首指標向後移動一位
        front = index(front + 1);
        queSize--;
        return num;
    }

    /* 佇列尾出列 */
    int popLast() {
        int num = peekLast();
        queSize--;
        return num;
    }

    /* 訪問佇列首元素 */
    int peekFirst() {
        if (isEmpty())
            throw out_of_range("雙向佇列為空");
        return nums[front];
    }

    /* 訪問佇列尾元素 */
    int peekLast() {
        if (isEmpty())
            throw out_of_range("雙向佇列為空");
        // 計算尾元素索引
        int last = index(front + queSize - 1);
        return nums[last];
    }

    /* 返回陣列用於列印 */
    vector<int> toVector() {
        // 僅轉換有效長度範圍內的串列元素
        vector<int> res(queSize);
        for (int i = 0, j = front; i < queSize; i++, j++) {
            res[i] = nums[index(j)];
        }
        return res;
    }
};

/* Driver Code */
int main() {
    /* 初始化雙向佇列 */
    ArrayDeque *deque = new ArrayDeque(10);
    deque->pushLast(3);
    deque->pushLast(2);
    deque->pushLast(5);
    cout << "雙向佇列 deque = ";
    printVector(deque->toVector());

    /* 訪問元素 */
    int peekFirst = deque->peekFirst();
    cout << "佇列首元素 peekFirst = " << peekFirst << endl;
    int peekLast = deque->peekLast();
    cout << "佇列尾元素 peekLast = " << peekLast << endl;

    /* 元素入列 */
    deque->pushLast(4);
    cout << "元素 4 佇列尾入列後 deque = ";
    printVector(deque->toVector());
    deque->pushFirst(1);
    cout << "元素 1 佇列首入列後 deque = ";
    printVector(deque->toVector());

    /* 元素出列 */
    int popLast = deque->popLast();
    cout << "佇列尾出列元素 = " << popLast << "，佇列尾出列後 deque = ";
    printVector(deque->toVector());
    int popFirst = deque->popFirst();
    cout << "佇列首出列元素 = " << popFirst << "，佇列首出列後 deque = ";
    printVector(deque->toVector());

    /* 獲取雙向佇列的長度 */
    int size = deque->size();
    cout << "雙向佇列長度 size = " << size << endl;

    /* 判斷雙向佇列是否為空 */
    bool isEmpty = deque->isEmpty();
    cout << "雙向佇列是否為空 = " << boolalpha << isEmpty << endl;
    return 0;
}
feat: Traditional Chinese version (#1163) * First commit * Update mkdocs.yml * Translate all the docs to traditional Chinese * Translate the code files. * Translate the docker file * Fix mkdocs.yml * Translate all the figures from SC to TC * 二叉搜尋樹 -> 二元搜尋樹 * Update terminology. * Update terminology * 构造函数/构造方法 -> 建構子异或 -> 互斥或 * 擴充套件 -> 擴展 * constant - 常量 - 常數 * 類 -> 類別 * AVL -> AVL 樹 * 數組 -> 陣列 * 係統 -> 系統斐波那契數列 -> 費波那契數列運算元量 -> 運算量引數 -> 參數 * 聯絡 -> 關聯 * 麵試 -> 面試 * 面向物件 -> 物件導向歸併排序 -> 合併排序范式 -> 範式 * Fix 算法 -> 演算法 * 錶示 -> 表示反碼 -> 一補數補碼 -> 二補數列列尾部 -> 佇列尾部區域性性 -> 區域性一摞 -> 一疊 * Synchronize with main branch * 賬號 -> 帳號推匯 -> 推導 * Sync with main branch * First commit * Update mkdocs.yml * Translate all the docs to traditional Chinese * Translate the code files. * Translate the docker file * Fix mkdocs.yml * Translate all the figures from SC to TC * 二叉搜尋樹 -> 二元搜尋樹 * Update terminology * 构造函数/构造方法 -> 建構子异或 -> 互斥或 * 擴充套件 -> 擴展 * constant - 常量 - 常數 * 類 -> 類別 * AVL -> AVL 樹 * 數組 -> 陣列 * 係統 -> 系統斐波那契數列 -> 費波那契數列運算元量 -> 運算量引數 -> 參數 * 聯絡 -> 關聯 * 麵試 -> 面試 * 面向物件 -> 物件導向歸併排序 -> 合併排序范式 -> 範式 * Fix 算法 -> 演算法 * 錶示 -> 表示反碼 -> 一補數補碼 -> 二補數列列尾部 -> 佇列尾部區域性性 -> 區域性一摞 -> 一疊 * Synchronize with main branch * 賬號 -> 帳號推匯 -> 推導 * Sync with main branch * Update terminology.md * 操作数量（num. of operations）-> 操作數量 * 字首和->前綴和 * Update figures * 歸 -> 迴記憶體洩漏 -> 記憶體流失 * Fix the bug of the file filter * 支援 -> 支持 Add zh-Hant/README.md * Add the zh-Hant chapter covers. Bug fixes. * 外掛 -> 擴充功能 * Add the landing page for zh-Hant version * Unify the font of the chapter covers for the zh, en, and zh-Hant version * Move zh-Hant/ to zh-hant/ * Translate terminology.md to traditional Chinese 8 months ago			`/**`
			`* File: array_deque.cpp`
			`* Created Time: 2023-03-02`
			`* Author: krahets (krahets@163.com)`
			`*/`

			`#include "../utils/common.hpp"`

			`/* 基於環形陣列實現的雙向佇列 */`
			`class ArrayDeque {`
			`private:`
			`vector<int> nums; // 用於儲存雙向佇列元素的陣列`
			`int front; // 佇列首指標，指向佇列首元素`
			`int queSize; // 雙向佇列長度`

			`public:`
			`/* 建構子 */`
			`ArrayDeque(int capacity) {`
			`nums.resize(capacity);`
			`front = queSize = 0;`
			`}`

			`/* 獲取雙向佇列的容量 */`
			`int capacity() {`
			`return nums.size();`
			`}`

			`/* 獲取雙向佇列的長度 */`
			`int size() {`
			`return queSize;`
			`}`

			`/* 判斷雙向佇列是否為空 */`
			`bool isEmpty() {`
			`return queSize == 0;`
			`}`

			`/* 計算環形陣列索引 */`
			`int index(int i) {`
			`// 透過取餘操作實現陣列首尾相連`
			`// 當 i 越過陣列尾部後，回到頭部`
			`// 當 i 越過陣列頭部後，回到尾部`
			`return (i + capacity()) % capacity();`
			`}`

			`/* 佇列首入列 */`
			`void pushFirst(int num) {`
			`if (queSize == capacity()) {`
			`cout << "雙向佇列已滿" << endl;`
			`return;`
			`}`
			`// 佇列首指標向左移動一位`
			`// 透過取餘操作實現 front 越過陣列頭部後回到尾部`
			`front = index(front - 1);`
			`// 將 num 新增至佇列首`
			`nums[front] = num;`
			`queSize++;`
			`}`

			`/* 佇列尾入列 */`
			`void pushLast(int num) {`
			`if (queSize == capacity()) {`
			`cout << "雙向佇列已滿" << endl;`
			`return;`
			`}`
			`// 計算佇列尾指標，指向佇列尾索引 + 1`
			`int rear = index(front + queSize);`
			`// 將 num 新增至佇列尾`
			`nums[rear] = num;`
			`queSize++;`
			`}`

			`/* 佇列首出列 */`
			`int popFirst() {`
			`int num = peekFirst();`
			`// 佇列首指標向後移動一位`
			`front = index(front + 1);`
			`queSize--;`
			`return num;`
			`}`

			`/* 佇列尾出列 */`
			`int popLast() {`
			`int num = peekLast();`
			`queSize--;`
			`return num;`
			`}`

			`/* 訪問佇列首元素 */`
			`int peekFirst() {`
			`if (isEmpty())`
			`throw out_of_range("雙向佇列為空");`
			`return nums[front];`
			`}`

			`/* 訪問佇列尾元素 */`
			`int peekLast() {`
			`if (isEmpty())`
			`throw out_of_range("雙向佇列為空");`
			`// 計算尾元素索引`
			`int last = index(front + queSize - 1);`
			`return nums[last];`
			`}`

			`/* 返回陣列用於列印 */`
			`vector<int> toVector() {`
			`// 僅轉換有效長度範圍內的串列元素`
			`vector<int> res(queSize);`
			`for (int i = 0, j = front; i < queSize; i++, j++) {`
			`res[i] = nums[index(j)];`
			`}`
			`return res;`
			`}`
			`};`

			`/* Driver Code */`
			`int main() {`
			`/* 初始化雙向佇列 */`
			`ArrayDeque *deque = new ArrayDeque(10);`
			`deque->pushLast(3);`
			`deque->pushLast(2);`
			`deque->pushLast(5);`
			`cout << "雙向佇列 deque = ";`
			`printVector(deque->toVector());`

			`/* 訪問元素 */`
			`int peekFirst = deque->peekFirst();`
			`cout << "佇列首元素 peekFirst = " << peekFirst << endl;`
			`int peekLast = deque->peekLast();`
			`cout << "佇列尾元素 peekLast = " << peekLast << endl;`

			`/* 元素入列 */`
			`deque->pushLast(4);`
			`cout << "元素 4 佇列尾入列後 deque = ";`
			`printVector(deque->toVector());`
			`deque->pushFirst(1);`
			`cout << "元素 1 佇列首入列後 deque = ";`
			`printVector(deque->toVector());`

			`/* 元素出列 */`
			`int popLast = deque->popLast();`
			`cout << "佇列尾出列元素 = " << popLast << "，佇列尾出列後 deque = ";`
			`printVector(deque->toVector());`
			`int popFirst = deque->popFirst();`
			`cout << "佇列首出列元素 = " << popFirst << "，佇列首出列後 deque = ";`
			`printVector(deque->toVector());`

			`/* 獲取雙向佇列的長度 */`
			`int size = deque->size();`
			`cout << "雙向佇列長度 size = " << size << endl;`

			`/* 判斷雙向佇列是否為空 */`
			`bool isEmpty = deque->isEmpty();`
			`cout << "雙向佇列是否為空 = " << boolalpha << isEmpty << endl;`
			`return 0;`
			`}`