它的作用主要是 指定由谁来创建类,默认是type
#python3class Foo(metaclass=MyType): ???pass#python2class Foo(object): ???__metaclass__ = MyType
注意下面的代码中的运行结果,如果某个基类执行谁来创建,那么继承这个基类的派生类也由这个谁来创建
class MyType(type): ???def __init__(self,*args,**kwargs): ???????print(‘init‘) ???????super(MyType, self).__init__(*args, **kwargs) ???def __call__(self, *args, **kwargs): ???????print(‘call本质:调用类的__new__,在调用init方法‘) ???????return super(MyType, self).__call__(*args, **kwargs)class Foo(metaclass=MyType): ???def __call__(self, *args, **kwargs): ???????print(‘123‘)class Bar(Foo): ???passFoo() ?#实例化对象,会执行负责创建类的type里的__call__方法obj = Bar()obj() ?#对象+() 执行父类的里__call__方法
应该见过这样创建类的吧,通过type创建Base = type(‘Base‘, (object,), {})
所以我们通过继承type的自定义type类也是可以这么做的Base = MyType(‘Base‘, (object,), {}),那这个过程本质也就是和上面metaclass一样的效果,指定了MyType进行创建类
class MyType(type): ???def __init__(self, *args, **kwargs): ???????super(MyType, self).__init__(*args, **kwargs) ???def __call__(cls, *args, **kwargs): ???????print(‘xxxx‘) ???????return super(MyType, cls).__call__(*args, **kwargs)# Base = MyType(‘Base‘, (object,), {})# MyType(‘Base‘, (object,), {}) 是有MyType创建; metaclass=MyType# 1. type可以创建类metaclass=type;MyType也可以创建类metaclass=MyType# 2. Base = MyType(‘Base‘, (object,), {}) --># class Base(metaclass=MyType):# ????pass# class Foo(Base):# ????passclass Foo(MyType(‘Base‘, (object,), {})): ???passobj = Foo()所以这个Foo继承的是MyType创建的类,而Foo子类也会由MyType进行创建,似乎这种方式看起更简洁
不过把创建Base类型整个过程都写在Foo继承上,难免有些看着有些糟心,另外base执行继承类也是写死了,我们可独立出一个函数进行封装,并动态实现传入继承类
class MyType(type): ???def __init__(self, *args, **kwargs): ???????super(MyType, self).__init__(*args, **kwargs) ???def __call__(cls, *args, **kwargs): ???????return super(MyType, cls).__call__(*args, **kwargs)def with_metaclass(base): ???return MyType(‘XX‘, (base,), {})class Foo(with_metaclass(object)): ???passMetaClass
原文地址:https://www.cnblogs.com/xinsiwei18/p/9601915.html