面向对象——进阶
面向对象--初级:重点知识回顾
- 面向对象是一种编程方式,此编程方式的实现是基于对 类 和 对象 的使用
- 类 是一个模板,模板中包装了多个“函数”供使用(可以讲多函数中公用的变量封装到对象中)
- 对象,根据模板创建的实例(即:对象),实例用于调用被包装在类中的函数
- 面向对象三大特性:封装、继承和多态
三个装饰器
@property **** #@name.setter
@staticmethod ***
@classmethod ***** 当一个方法只使用了类的静态变量时 就给这个方法加上@classmethod装饰器,默认传cls参数
class Goods: __discount = 0.8 @classmethod def change_discount(cls): cls.__discount = 0.5 Goods.change_discount()
##商品打折例子
1、类的成员
1.1 静态字段,通过类调用
class Province: country = 'china' #静态字段 def __init__(self,name): self.name = '高总'
print(Province.country) #静态类字段通过类直接进行调用
1.2 静态方法,通过类调用
class Province: country = 'china'#静态字段 @staticmethod #静态方法的关键字 def func(arg1,arg2):#静态字段通过类直接调用 return arg1 + arg2 ret = Province.func(1,2) print(ret)
1.3类方法,通过类调用
class Province: country = '中国'#静态字段 @classmethod def name(cls): print(cls.country) Province.name()
1.4 普通字段,通过对象调用
class Province: country = '中国' #init里有参数,在province里面一定要传参,当self.name已经进行赋值了,那么传的参数将是无效的。 def __init__(self,name): self.name = 'lina' obj = Province('456') print(obj.name)#输出的是lina
1.5 普通方法,通过对象调用
class Province: country = '中国'#静态字段 def show(self): print('Good time !') obj = Province() obj.show()
二、
isinstance和issubclass
isinstance(obj,cls)检查是否obj是否是类 cls 的对象
1 class Foo(object): 2 pass 3 4 obj = Foo() 5 6 isinstance(obj, Foo)
issubclass(sub, super)检查sub类是否是 super 类的派生类
1 class Foo(object): 2 pass 3 4 class Bar(Foo): 5 pass 6 7 issubclass(Bar, Foo)
反射
1,什么是反射
反射的概念是由Smith在1982年首次提出的,主要是指程序可以访问、检测和修改它本身状态或行为的一种能力(自省)。这一概念的提出很快引发了计算机科学领域关于应用反射性的研究。它首先被程序语言的设计领域所采用,并在Lisp和面向对象方面取得了成绩。
2 python面向对象中的反射:通过字符串的形式操作对象相关的属性。python中的一切事物都是对象(都可以使用反射)
四个可以实现自省的函数
下列方法适用于类和对象(一切皆对象,类本身也是一个对象)
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def hasattr(*args, **kwargs): # real signature unknown """ Return whether the object has an attribute with the given name. This is done by calling getattr(obj, name) and catching AttributeError. """ pass
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def getattr(object, name, default=None): # known special case of getattr """ getattr(object, name[, default]) -> value Get a named attribute from an object; getattr(x, 'y') is equivalent to x.y. When a default argument is given, it is returned when the attribute doesn't exist; without it, an exception is raised in that case. """ pass
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def setattr(x, y, v): # real signature unknown; restored from __doc__ """ Sets the named attribute on the given object to the specified value. setattr(x, 'y', v) is equivalent to ``x.y = v'' """ pass
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def delattr(x, y): # real signature unknown; restored from __doc__ """ Deletes the named attribute from the given object. delattr(x, 'y') is equivalent to ``del x.y'' """ pass
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class Foo: f = '类的静态变量' def __init__(self,name,age): self.name=name self.age=age def say_hi(self): print('hi,%s'%self.name) obj=Foo('egon',73) #检测是否含有某属性 print(hasattr(obj,'name')) print(hasattr(obj,'say_hi')) #获取属性 n=getattr(obj,'name') print(n) func=getattr(obj,'say_hi') func() print(getattr(obj,'aaaaaaaa','不存在啊')) #报错 #设置属性 setattr(obj,'sb',True) setattr(obj,'show_name',lambda self:self.name+'sb') print(obj.__dict__) print(obj.show_name(obj)) #删除属性 delattr(obj,'age') delattr(obj,'show_name') delattr(obj,'show_name111')#不存在,则报错 print(obj.__dict__)
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class Foo: f = '类的静态变量' def __init__(self,name,age): self.name=name self.age=age def say_hi(self): print('hi,%s'%self.name) obj=Foo('egon',73) #检测是否含有某属性 print(hasattr(obj,'name')) print(hasattr(obj,'say_hi')) #获取属性 n=getattr(obj,'name') print(n) func=getattr(obj,'say_hi') func() print(getattr(obj,'aaaaaaaa','不存在啊')) #报错 #设置属性 setattr(obj,'sb',True) setattr(obj,'show_name',lambda self:self.name+'sb') print(obj.__dict__) print(obj.show_name(obj)) #删除属性 delattr(obj,'age') delattr(obj,'show_name') delattr(obj,'show_name111')#不存在,则报错 print(obj.__dict__)
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import sys def s1(): print 's1' def s2(): print 's2' this_module = sys.modules[__name__] hasattr(this_module, 's1') getattr(this_module, 's2')
导入其他模块,利用反射查找该模块是否存在某个方法
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def test(): print('from the test')
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""" 程序目录: module_test.py index.py 当前文件: index.py """ import module_test as obj #obj.test() print(hasattr(obj,'test')) getattr(obj,'test')()
__str__和__repr__
改变对象的字符串显示__str__,__repr__
自定制格式化字符串__format__
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format_dict={ 'nat':'{obj.name}-{obj.addr}-{obj.type}',#学校名-学校地址-学校类型 'tna':'{obj.type}:{obj.name}:{obj.addr}',#学校类型:学校名:学校地址 'tan':'{obj.type}/{obj.addr}/{obj.name}',#学校类型/学校地址/学校名 } class School: def __init__(self,name,addr,type): self.name=name self.addr=addr self.type=type def __repr__(self): return 'School(%s,%s)' %(self.name,self.addr) def __str__(self): return '(%s,%s)' %(self.name,self.addr) def __format__(self, format_spec): # if format_spec if not format_spec or format_spec not in format_dict: format_spec='nat' fmt=format_dict[format_spec] return fmt.format(obj=self) s1=School('oldboy1','北京','私立') print('from repr: ',repr(s1)) print('from str: ',str(s1)) print(s1) ''' str函数或者print函数--->obj.__str__() repr或者交互式解释器--->obj.__repr__() 如果__str__没有被定义,那么就会使用__repr__来代替输出 注意:这俩方法的返回值必须是字符串,否则抛出异常 ''' print(format(s1,'nat')) print(format(s1,'tna')) print(format(s1,'tan')) print(format(s1,'asfdasdffd'))
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class B: def __str__(self): return 'str : class B' def __repr__(self): return 'repr : class B' b=B() print('%s'%b) print('%r'%b)
__del__
析构方法,当对象在内存中被释放时,自动触发执行。
注:此方法一般无须定义,因为Python是一门高级语言,程序员在使用时无需关心内存的分配和释放,因为此工作都是交给Python解释器来执行,所以,析构函数的调用是由解释器在进行垃圾回收时自动触发执行的
class Foo: def __del__(self): print('执行我啦') f1=Foo() del f1 print('------->') #输出结果 执行我啦 ------->
item系列
__getitem__\__setitem__\__delitem__
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class Foo: def __init__(self,name): self.name=name def __getitem__(self, item): print(self.__dict__[item]) def __setitem__(self, key, value): self.__dict__[key]=value def __delitem__(self, key): print('del obj[key]时,我执行') self.__dict__.pop(key) def __delattr__(self, item): print('del obj.key时,我执行') self.__dict__.pop(item) f1=Foo('sb') f1['age']=18 f1['age1']=19 del f1.age1 del f1['age'] f1['name']='alex' print(f1.__dict__)
__new__
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class A: def __init__(self): self.x = 1 print('in init function') def __new__(cls, *args, **kwargs): print('in new function') return object.__new__(A, *args, **kwargs) a = A() print(a.x)
__call__
对象后面加括号,触发执行。
注:构造方法的执行是由创建对象触发的,即:对象 = 类名() ;而对于 __call__ 方法的执行是由对象后加括号触发的,即:对象() 或者 类()()
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class Foo: def __init__(self): pass def __call__(self, *args, **kwargs): print('__call__') obj = Foo() # 执行 __init__ obj() # 执行 __call__ 复制代码
__len__
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class A: def __init__(self): self.a = 1 self.b = 2 def __len__(self): return len(self.__dict__) a = A() print(len(a))
__hash__
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class A: def __init__(self): self.a = 1 self.b = 2 def __hash__(self): return hash(str(self.a)+str(self.b)) a = A() print(hash(a))
__eq__
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class A: def __init__(self): self.a = 1 self.b = 2 def __eq__(self,obj): if self.a == obj.a and self.b == obj.b: return True a = A() b = A() print(a == b)
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class FranchDeck: ranks = [str(n) for n in range(2,11)] + list('JQKA') suits = ['红心','方板','梅花','黑桃'] def __init__(self): self._cards = [Card(rank,suit) for rank in FranchDeck.ranks for suit in FranchDeck.suits] def __len__(self): return len(self._cards) def __getitem__(self, item): return self._cards[item] deck = FranchDeck() print(deck[0]) from random import choice print(choice(deck)) print(choice(deck))
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class FranchDeck: ranks = [str(n) for n in range(2,11)] + list('JQKA') suits = ['红心','方板','梅花','黑桃'] def __init__(self): self._cards = [Card(rank,suit) for rank in FranchDeck.ranks for suit in FranchDeck.suits] def __len__(self): return len(self._cards) def __getitem__(self, item): return self._cards[item] def __setitem__(self, key, value): self._cards[key] = value deck = FranchDeck() print(deck[0]) from random import choice print(choice(deck)) print(choice(deck)) from random import shuffle shuffle(deck) print(deck[:5])
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class Person: def __init__(self,name,age,sex): self.name = name self.age = age self.sex = sex def __hash__(self): return hash(self.name+self.sex) def __eq__(self, other): if self.name == other.name and self.sex == other.sex:return True p_lst = [] for i in range(84): p_lst.append(Person('egon',i,'male')) print(p_lst) print(set(p_lst)