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面向对象中关于元类的介绍与异常处理

时间:2018-08-28 00:44:55      阅读:205      评论:0      收藏:0      [点我收藏+]

标签:oldboy   注释   rod   try   面向   new   ISE   应用程序   驼峰   

一、异常处理

1. 什么是异常处理     异常是错误发生的信号,一旦程序出错就会产生一个异常,如果该异常     没有被应用程序处理,那么该异常就会抛出来,程序的执行也随之终止

    异常包含三个部分:         1. traceback异常的追踪信息         2. 异常的类型         3. 异常的信息

    错误分为两大类:         1. 语法上的错误:在程序运行前就应该立即修正         2. 逻辑上的错误

2. 为何要异常处理

    避免程序因为异常而崩溃,所以在应用程序中应该对异常进行处理,从而增强程序的健壮性

3. 如何异常处理

try:
    代码1
    代码2
    代码3
    ......
except NameError:
    当抛出的异常是NameError时执行的子代码块
except ....:
    pass
except ...:
    pass
else:
    pass
finally:
    pass

3.1常见的逻辑错误导致的异常

 print(adsfsadf

 age=input(>>: ).strip()
 print(age > 10) #TypeError

 for i in 10: #TypeError
    pass

 import os
 os.xxx #AttributeError

 1 / 0 #ZeroDivisionError:

 print(=====1)
 print(=====2)
 print(=====3)
 l=[1,2,3]# l[1000] #IndexError
 print(=====4)
 d={x:1,y:2}
 d[z] #KeyError
 print(=====5)

3.2异常处理
  3.2.1异常处理的单分支

try:
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     d[z]  # KeyError
     print(=====4)
     l = [1, 2, 3]
     l[1000]  # IndexError
     print(=====5)
except IndexError:
    print(IndexError)
print(other code)

3.2.2异常处理的多分支

 try:
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     d[z]  # KeyError
     print(=====4)
     l = [1, 2, 3]
     l[1000]  # IndexError
        print(=====5)
 except KeyError as e:
     print(KeyError,e)
 except IndexError as e:
     print(IndexError,e)


 print(other code)




 try:
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     # d[‘z‘]  # KeyError
     print(=====4)
     l = [1, 2, 3]
     l[1000]  # IndexError
     print(=====5)
 except (KeyError,IndexError) as e:
     print(e)
 print(other code)

3.2.3万能异常类型Exception:可以匹配任意类型的异常

 try:
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     # d[‘z‘]  # KeyError
     # xxx
     print(=====4)
     l = [1, 2, 3]
     l[1000]  # IndexError
     print(=====5)
 except IndexError as e:
     print(IndexError:, e)
 except KeyError as e:
    print(KeyError:, e)
 except Exception as e:
     print(Exception:,e)

 print(other code)

 try... else...
 try:
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     # d[‘z‘]  # KeyError
     # xxx
     print(=====4)
     l = [1, 2, 3]
     # l[1000]  # IndexError
     print(=====5)
 except IndexError as e:
     print(IndexError:, e)
 except KeyError as e:
     print(KeyError:, e)
 except Exception as e:
     print(Exception:,e)
 else:
     print(else必须放到后面,else的子代码块会在被检测的代码没有异常的情况下执行)
 # print(‘other code‘)

 try... finally...
 try:
     f=open(a.txt,w)
     print(=====1)
     print(=====2)
     print(=====3)
     d = {x: 1, y: 2}
     # d[‘z‘]  # KeyError
     # xxx
     xx > 10
     print(=====4)
     l = [1, 2, 3]
     # l[1000]  # IndexError
     print(=====5)

 except IndexError as e:
     print(IndexError:, e)
 except KeyError as e:
     print(KeyError:, e)
 # except Exception as e:
 #     print(‘Exception:‘,e)
 else:
     print(else必须放到后面,else的子代码块会在被检测的代码没有异常的情况下执行)
 finally:
     print(无论被检测的代码有没有异常都会执行)
     f.close()

4几个异常的用法
4.1主动触发异常

class People:
    def __init__(self,name,age):
        self.__name=name
        self.__age=age
    def tell_info(self):
        print(self.__name,self.__age)
    def set_info(self,name,age):
        if not isinstance(name,str):
            raise TypeError(name必须是字符串类型str)
        if not isinstance(age,int):
            raise TypeError(age必须是整型int)
        self.__name=name
        self.__age=age
obj=People(liu,18)
obj.set_info(egon,2.0)
obj.tell_info()

4.2自定义异常(了解)

class Mymeta(BaseException):
    def __init__(self,name):
        self.name=name
    def __str__(self):
        return %s%self.name
raise Mymeta(LIU)

4.3断言(了解)

print(上半部分,生产数据)
l=[1,2,3]
# if len(l)!=5:
#     raise TypeError
assert len(l)==5
print(下半部分,处理数据)

二、元类的介绍
1、什么是元类?

源自一句话:在Python中一切皆为对象,二对象都是由类实例化得到的

class OldboyTeacher:
    def __init__(self,name,age,sex):
        self.name=name
        self.age=age
        self.sex=sex

    def score(self):
        print(%s is scoring %self.name)

tea1=OldboyTeacher(egon,18,male)
print(type(tea1))
print(type(OldboyTeacher))
对象tea1是调用OldboyTeacher类得到的,如果说一切皆对象,
那么OldboyTeacher也是一个对象,只要是对象 都是调用一个类实例化得到的,即OldboyTeacher=元类(...),内置的元类是type
关系: 1. 调用元类---->自定义的类 
2. 调用自定义的类---->自定义的对象
class关键字创建自定义类的底层的工作原理,分为四步 
1. 先拿到类名:‘OldboyTeacher‘
2. 再拿到类的基类们:(object,)
3. 然后拿到类的名称空间???(执行类体代码,将产生的名字放到类的名称空间也就是一个字典里,补充exec)
4. 调用元类实例化得到自定义的类: OldboyTeacher=type(‘OldboyTeacher‘,(object,),{...})
class OldboyTeacher: #OldboyTeacher=type(...)
    school = Oldboy
    def __init__(self,name,age,sex):
        self.name=name
        self.age=age
        self.sex=sex

    def score(self):
        print(%s is scoring %self.name)
print(OldboyTeacher)
注意:
自定义类的三个关键组成部分:
1. 类名
2. 类的基类们
3. 类的名称空间
不依赖class关键字创建一个自定义类
# 1. 拿到类名
class_name=OldboyTeacher
#2. 拿到类的基类们:(object,)
class_bases=(object,)
#3. 拿到类的名称空间
class_dic={}
class_body="""

"""
exec(class_body,{},class_dic)
print(class_dic)
#4. 调用type得到自定义的类
OldboyTeacher=type(class_name,class_bases,class_dic)

print(OldboyTeacher)
# print(OldboyTeacher.school)
# print(OldboyTeacher.score)

tea1=OldboyTeacher(egon,18,male)
print(tea1.__dict__)
3、自定义元类来控制自定义类的产生于调用过程
# 模板
# class Mymeta(type): #但凡继承了type的类才能称之为自定义的元类,否则就是只是一个普通的类
#     def __init__(self,class_name,class_bases,class_dic):
#         print(self)
#         print(class_name)
#         print(class_bases)
#         print(class_dic)
#
# class OldboyTeacher(object,metaclass=Mymeta): #OldboyTeacher=Mymeta(‘OldboyTeacher‘,(object,),{...})
#     school = ‘Oldboy‘
#
#     def __init__(self,name,age,sex):
#         self.name=name
#         self.age=age
#         self.sex=sex
#
#     def score(self):
#         print(‘%s is scoring‘ %self.name)

# 控类的产生
# 1.类名必须用驼峰体
# 2.类体必须有文档注释,且文档注释不能为空
class Mymeta(type): #但凡继承了type的类才能称之为自定义的元类,否则就是只是一个普通的类
    def __init__(self,class_name,class_bases,class_dic):
        if class_name.islower():
            raise TypeError(类名必须使用驼峰体)

        doc=class_dic.get(__doc__)
        if doc is None or len(doc) == 0 or len(doc.strip(\n )) == 0:
            raise TypeError(类体中必须有文档注释,且文档注释不能为空)

class OldboyTeacher(object,metaclass=Mymeta): #OldboyTeacher=Mymeta(‘OldboyTeacher‘,(object,),{...})
    school = Oldboy

    def __init__(self,name,age,sex):
        self.name=name
        self.age=age
        self.sex=sex

    def score(self):
        print(%s is scoring %self.name)


print(OldboyTeacher.__dict__)
补充:属性查找
class Mymeta(type):  # 但凡继承了type的类才能称之为自定义的元类,否则就是只是一个普通的类
    # n=444
    def __call__(self, *args, **kwargs): #self=OldboyTeacher这个类
        # 1. 先产生一个空对象
        tea_obj = self.__new__(self)  # tea_obj是OldboyTeacher这个类的对象
        # print(self.__new__ is object.__new__)
        # tea_obj=object.__new__(self)

        # 2. 执行__init__方法,完成对象的初始属性操作
        self.__init__(tea_obj, *args, **kwargs)
        # 3. 返回初始化好的那个对象
        return tea_obj


class Bar:
    # n = 33
    pass

class Foo(Bar):
    # n = 222
    pass

class OldboyTeacher(Foo, metaclass=Mymeta):  # OldboyTeacher=Mymeta(‘OldboyTeacher‘,(object,),{...})
    # n = 111
    school = Oldboy

    def __init__(self, name, age, sex):
        self.name = name #None.name=‘egon‘
        self.age = age
        self.sex = sex

    def score(self):
        print(%s is scoring % self.name)

    def __new__(cls, *args, **kwargs):
        # print(‘=====>‘)
        return super().__new__(cls)

tea1 = OldboyTeacher(egon, 18, male)
# print(tea1)
print(tea1.__dict__)

# print(OldboyTeacher.n)

# print(object.__new__)

 


 


 


 

 



 

面向对象中关于元类的介绍与异常处理

标签:oldboy   注释   rod   try   面向   new   ISE   应用程序   驼峰   

原文地址:https://www.cnblogs.com/ageliu/p/9545324.html

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