数据结构和算法是基本功,
设计模式是最佳实现。
作为程序员,必须有空了就练一练哈。
# coding = utf-8 """ # 经典单例 class Singleton: def __new__(cls): if not hasattr(cls, 'instance'): cls.instance = super(Singleton, cls).__new__(cls) return cls.instance s1 = Singleton() print('Object created', s1) s2 = Singleton() print('Object created', s2) # 单例模式中的懒汉式实例化 class Singleton: __instance = None def __init__(self): if not Singleton.__instance: print('__init__ method called...') else: print('Instance already created: ', self.get_instance()) @classmethod def get_instance(cls): if not cls.__instance: cls.__instance = Singleton() return cls.__instance s1 = Singleton() print("Object created ", Singleton.get_instance()) s2 = Singleton() # 通过__init__实现Monostate单态模式 class Borg: __shared_stat = {"1": "one"} def __init__(self): self.x = 1 self.__dict__ = self.__shared_stat pass b1 = Borg() b2 = Borg() b1.x = 4 print('Borg Object b1: ', b1) print('Borg Object b2: ', b2) print('Object State b1: ', b1.__dict__) print('Object State b2: ', b2.__dict__) # 通过__new__实现Monostate单态模式 class Borg: __shared_stat = {"1": "one"} def __new__(cls, *args, **kwargs): obj = super().__new__(cls, *args, **kwargs) obj.__dict__ = cls.__shared_stat return obj b1 = Borg() b2 = Borg() b1.x = 4 print('Borg Object b1: ', b1) print('Borg Object b2: ', b2) print('Object State b1: ', b1.__dict__) print('Object State b2: ', b2.__dict__) # 元类示例 class MyInt(type): def __call__(cls, *args, **kwargs): print('****Here is my int****', args) print('Now do whatever you want with this object...') return type.__call__(cls, *args, **kwargs) class int(metaclass=MyInt): def __init__(self, x, y): self.x = x self.y = y i = int(4, 5) # 基于元类的单例 class MetaSingleton(type): _instances = {} def __call__(cls, *args, **kwargs): if cls not in cls._instances: cls._instances[cls] = super().__call__(*args, **kwargs) return cls._instances[cls] class Logger(metaclass=MetaSingleton): pass logger1 = Logger() logger2 = Logger() print(logger1, logger2) # sqlite3数据库连接单例 import sqlite3 class MetaSingleton(type): _instances = {} def __call__(cls, *args, **kwargs): if cls not in cls._instances: cls._instances[cls] = super().__call__(*args, **kwargs) return cls._instances[cls] class Database(metaclass=MetaSingleton): connection = None cursor = None def connect(self): if self.connection is None: self.connection = sqlite3.connect('db.sqlite3') self.cursor = self.connection.cursor() return self.cursor db1 = Database().connect() db2 = Database().connect() print('Database Objects DB1', db1) print('Database Objects DB2', db2) """ # 监控服务器单例 class HealthCheck: _instance = None _servers = [] def __new__(cls, *args, **kwargs): print('====new====') if not cls._instance: cls._instance = super().__new__(cls, *args, **kwargs) print(cls._instance) print('=======cls._instance========', cls._instance) return cls._instance # def __init__(self): # print('====init====') # self._servers = [] def add_server(self): self._servers.append('Server 1') self._servers.append('Server 2') self._servers.append('Server 3') self._servers.append('Server 4') self._servers.append('Server 5') print(self._servers) def change_server(self): self._servers.pop() self._servers.append('Server 6') print(self._servers) def __len__(self): return len(self._servers) hc1 = HealthCheck() hc1.add_server() print('Schedule health check for server (1)...') for i in range(len(hc1)): print('Checking ', hc1._servers[i]) hc2 = HealthCheck() hc2.change_server() print('Schedule health check for server (2)...') for i in range(len(hc2)): print('Checking ', hc2._servers[i])
C:\Users\Sahara\.virtualenvs\test\Scripts\python.exe C:/Users/Sahara/PycharmProjects/test/python_search.py ====new==== <__main__.HealthCheck object at 0x00000000021E35F8> =======cls._instance======== <__main__.HealthCheck object at 0x00000000021E35F8> ['Server 1', 'Server 2', 'Server 3', 'Server 4', 'Server 5'] Schedule health check for server (1)... Checking Server 1 Checking Server 2 Checking Server 3 Checking Server 4 Checking Server 5 ====new==== =======cls._instance======== <__main__.HealthCheck object at 0x00000000021E35F8> ['Server 1', 'Server 2', 'Server 3', 'Server 4', 'Server 6'] Schedule health check for server (2)... Checking Server 1 Checking Server 2 Checking Server 3 Checking Server 4 Checking Server 6 Process finished with exit code 0