""" File: array_queue.py Created Time: 2022-12-01 Author: Peng Chen (pengchzn@gmail.com) """ class ArrayQueue: """基于环形数组实现的队列""" def __init__(self, size: int) -> None: """构造方法""" self.__nums: list[int] = [0] * size # 用于存储队列元素的数组 self.__front: int = 0 # 队首指针,指向队首元素 self.__size: int = 0 # 队列长度 def capacity(self) -> int: """获取队列的容量""" return len(self.__nums) def size(self) -> int: """获取队列的长度""" return self.__size def is_empty(self) -> bool: """判断队列是否为空""" return self.__size == 0 def push(self, num: int) -> None: """入队""" assert self.__size < self.capacity(), "队列已满" # 计算尾指针,指向队尾索引 + 1 # 通过取余操作,实现 rear 越过数组尾部后回到头部 rear: int = (self.__front + self.__size) % self.capacity() # 将 num 添加至队尾 self.__nums[rear] = num self.__size += 1 def pop(self) -> int: """出队""" num: int = self.peek() # 队首指针向后移动一位,若越过尾部则返回到数组头部 self.__front = (self.__front + 1) % self.capacity() self.__size -= 1 return num def peek(self) -> int: """访问队首元素""" assert not self.is_empty(), "队列为空" return self.__nums[self.__front] def to_list(self) -> list[int]: """返回列表用于打印""" res: list[int] = [0] * self.size() j: int = self.__front for i in range(self.size()): res[i] = self.__nums[(j % self.capacity())] j += 1 return res """Driver Code""" if __name__ == "__main__": # 初始化队列 queue = ArrayQueue(10) # 元素入队 queue.push(1) queue.push(3) queue.push(2) queue.push(5) queue.push(4) print("队列 queue =", queue.to_list()) # 访问队首元素 peek: int = queue.peek() print("队首元素 peek =", peek) # 元素出队 pop: int = queue.pop() print("出队元素 pop =", pop) print("出队后 queue =", queue.to_list()) # 获取队列的长度 size: int = queue.size() print("队列长度 size =", size) # 判断队列是否为空 is_empty: bool = queue.is_empty() print("队列是否为空 =", is_empty) # 测试环形数组 for i in range(10): queue.push(i) queue.pop() print("第", i, "轮入队 + 出队后 queue = ", queue.to_list())