# ------------------------------------------------分割线-------------------------------------------------
# ------------------------------------------------分割线-------------------------------------------------
# ------------------------------------------------分割线-------------------------------------------------
# 01 上节课回顾
# 01 上节课回顾
'''
# ------------------------------------------------------------
# # 1、对于类中的函数属性调用
# # # 实例调用函数属性,调用时类会自动传入参数self
# # # 类 调用函数属性,调用时类不会自动传入参数self,需要自己传入参数
# # #
# # # 需要注意的是,实例有数值属性,但是没有函数属性,它的函数调用都是对类函数调用
# # # 而类中是有函数属性 + 数值属性
# ------------------------------------------------------------
'''
#
# class School:
# x = 1
# def __init__(self, name, addr, type):
# self.Name = name
# self.Addr = addr
# self.Type = type
# def tell_info(self):
# print("学校的详细信息是: name: %s addr: %s" %(self.Name, self.Addr))
#
#
# s1 = School("青鸟", "神都", "私立")
# print(s1.__dict__)
# print(School.__dict__)
#
# s1.tell_info()
# School.tell_info(s1)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'Name': '青鸟', 'Addr': '神都', 'Type': '私立'}
# # {'__module__': '__main__', 'x': 1, '__init__': <function School.__init__ at 0x0000000002984620>, 'tell_info': <function School.tell_info at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'School' objects>, '__weakref__': <attribute '__weakref__' of 'School' objects>, '__doc__': None}
# # 学校的详细信息是: name: 青鸟 addr: 神都
# # 学校的详细信息是: name: 青鸟 addr: 神都
# #
# # Process finished with exit code 0 # 02 静态属性
# 02 静态属性
'''
# ------------------------------------------------------------
# # 2、静态属性引入
# # #
# ------------------------------------------------------------
'''
#
# class Room:
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
#
# def cal_area(self):
# print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
#
#
# r1 = Room("一环", "tom", 100, 100, 999)
# r2 = Room("0环", "zhang", 1, 1, 1)
#
# print(" %s 住的 %s 总面积是 %s" %(r1.owner, r1.name, r1.length*r1.width))
# print(" %s 住的 %s 总面积是 %s" %(r2.owner, r2.name, r2.length*r2.width))
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # tom 住的 一环 总面积是 10000
# # zhang 住的 0环 总面积是 1
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 2.1、静态属性引入1
# # # 把特定功能封装成一个函数
# ------------------------------------------------------------
'''
#
# class Room:
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
#
# def cal_area(self):
# print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
#
#
# r1 = Room("一环", "tom", 100, 100, 999)
# r2 = Room("0环", "zhang", 1, 1, 1)
#
# r1.cal_area()
# r2.cal_area()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # tom 住的 一环 总面积是 10000
# # zhang 住的 0环 总面积是 1
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 2.2、@property,静态属性引入2
# # # 把特定功能封装成一个函数,使用@property来修饰的时候,在调用上可以不用()就可以运行,
# # # 看起来像是一个数值属性
# ------------------------------------------------------------
'''
#
# class Room:
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
# @property
# def cal_area(self):
# print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
#
#
# r1 = Room("一环", "tom", 100, 100, 999)
# r2 = Room("0环", "zhang", 1, 1, 1)
#
# # 实际上是一个函数,但是看起来像是一个数值属性
# r1.cal_area
# r2.cal_area
#
# # 数值属性
# print(r1.owner)
# print(r2.owner)
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # tom 住的 一环 总面积是 10000
# # zhang 住的 0环 总面积是 1
# # tom
# # zhang
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 2.3、@property,静态属性引入3
# # # 把特定功能封装成一个函数,使用@property来修饰的时候
# # # 看起来像是一个数值属性
# ------------------------------------------------------------
'''
#
# class Room:
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
# @property
# def cal_area(self):
# # print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
# return self.length * self.width
#
# r1 = Room("一环", "tom", 100, 100, 999)
# r2 = Room("0环", "zhang", 1, 1, 1)
#
# # 实际上是一个函数,但是看起来像是一个数值属性
# print( r1.cal_area )
# print( r2.cal_area )
#
# # 数值属性
# print(r1.owner)
# print(r2.owner)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 10000
# # 1
# # tom
# # zhang
# #
# # Process finished with exit code 0 # 03 类方法
# 03 类方法
'''
# ------------------------------------------------------------
# # 3、通过实例化,对类的方法进行调用
# # # 通过实例化,对类的方法进行调用,这个过程中,实例化的作用只是桥梁
# ------------------------------------------------------------
'''
#
# class Room:
# tag = 1
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
# @property
# def cal_area(self):
# # print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
# return self.length * self.width
#
# def test(self):
# print("from test", self.name)
#
# def tell_info(self):
# print("====>>>>", self.tag)
#
#
# r1 = Room("一环", "tom", 100, 100, 999)
# print(Room.tag)
#
# Room.test(r1)
# Room.test("99") # 报错, 没有通宵过实例,无法调用
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 1
# # from test 一环
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 4、classmethod,"不" 通过实例化,对类的方法进行调用
# # # classmethod所修饰的函数A,实例仍然可以访问, 但是它与实例是没有任何的关系的,并且,函数A
# # # 只能访问类的属性而不可以访问实例的属性
# ------------------------------------------------------------
'''
#
# class Room:
# tag = 1
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
# @property
# def cal_area(self):
# # print(" %s 住的 %s 总面积是 %s" % (self.owner, self.name, self.length * self.width))
# return self.length * self.width
#
# def test(self):
# print("from test", self.name)
#
# @classmethod # 定义为一个类方法,
# def tell_info(cls, x): # 注意,自会动传入的参数是cls, 这个是类本身
# print(cls)
# print("====>>>>", cls.tag, x)
# # print("====>>>>", self.tag) # 报错
#
# print(Room.__dict__)
# Room.tell_info("=_+")
#
# print("分割线 实例调用".center(100,"-"))
# r1 = Room("一环", "tom", 100, 100, 999)
# r1.tell_info(99)
# print("dic 实例调用".center(100,"-"))
# print(Room.__dict__)
# print(r1.__dict__)
# #
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x00000000029A4620>, 'cal_area': <property object at 0x0000000001E98138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x00000000029B5AC8>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # <class '__main__.Room'>
# # ====>>>> 1 =_+
# # ---------------------------------------------分割线 实例调用----------------------------------------------
# # <class '__main__.Room'>
# # ====>>>> 1 99
# # ---------------------------------------------dic 实例调用---------------------------------------------
# # {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x00000000029A4620>, 'cal_area': <property object at 0x0000000001E98138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x00000000029B5AC8>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # {'name': '一环', 'owner': 'tom', 'width': 100, 'length': 100, 'heigh': 999}
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 5、classmethod,"不" 通过实例化,对类的方法进行调用
# # # 所修饰的函数,实例仍然可以访问
# ------------------------------------------------------------
'''
#
# class Room:
# tag = 1
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh # @classmethod # 定义为一个类方法,
# def tell_info(cls): # 注意,自会动传入的参数是cls, 这个是类本身
# print(cls)
# print("====>>>>", cls.tag)
# # print("====>>>>", self.tag) # 报错
#
# print(Room.__dict__)
# Room.tell_info()
#
# print("分割线 实例调用".center(100,"-"))
# r1 = Room("一环", "tom", 100, 100, 999)
# r1.tell_info()
# print("dic 实例调用".center(100,"-"))
# print(Room.__dict__)
# print(r1.__dict__)
# #
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x0000000002984620>, 'cal_area': <property object at 0x00000000027E8138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x0000000002995B70>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # <class '__main__.Room'>
# # ====>>>> 1
# # ---------------------------------------------分割线 实例调用----------------------------------------------
# # <class '__main__.Room'>
# # ====>>>> 1
# # ---------------------------------------------dic 实例调用---------------------------------------------
# # {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x0000000002984620>, 'cal_area': <property object at 0x00000000027E8138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x0000000002995B70>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # {'name': '一环', 'owner': 'tom', 'width': 100, 'length': 100, 'heigh': 999}
# #
# # Process finished with exit code 0 # 04 静态方法
# 04 静态方法 '''
# ------------------------------------------------------------
# # 6、类中的staticmethod
# # # 被修饰的函数脱离于类、 实例的绑定
# # # 类中被类中的staticmethod的函数属性,是属于类的工具包,它对于类中的所有其他属性都是
# # # 不绑定的,也不与类中的实例绑定,这个时候,他就相当于一个普通的函数,仅仅是用来给类
# # # 特定的提供一些方法,但却不属于类的特征属性
# ------------------------------------------------------------
'''
#
# class Room:
# tag = 1
# def __init__(self, name, owner, width, length, heigh):
# self.name = name
# self.owner= owner
# self.width= width
# self.length=length
# self.heigh= heigh
# @staticmethod
# def wash(a, b, c):
# print("%s %s %s 正在洗东西" %(a, b, c ))
# # print(tag) # 报错,找不到变量
# # print(self.tag) # 报错,找不到变量
# # print(cls.tag) # 报错,找不到变量
# print("wash中实现Room.tag: ", Room.tag) # 正确,通过类名来找
#
# print("Room.__dict__: ",Room.__dict__)
# Room.wash("AA","BB","ZHANG")
#
# # 实例可以调用staticmethod所修饰的函数属性
# print("分割线 实例调用".center(100,"-"))
# r1 = Room("一环", "tom", 100, 100, 999)
# r1.wash("r1一号", "二号", "三号")
# print("dic".center(100,"-"))
# print("Room.__dict__: ",Room.__dict__)
# print("r1.__dict__: ", r1.__dict__) # #
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Room.__dict__: {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x0000000002974620>, 'cal_area': <property object at 0x00000000021E8138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x00000000029912E8>, 'wash': <staticmethod object at 0x00000000039C6D68>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # AA BB ZHANG 正在洗东西
# # ---------------------------------------------分割线 实例调用----------------------------------------------
# # r1一号 二号 三号 正在洗东西
# # ------------------------------------------------dic-------------------------------------------------
# # Room.__dict__: {'__module__': '__main__', 'tag': 1, '__init__': <function Room.__init__ at 0x0000000002974620>, 'cal_area': <property object at 0x00000000021E8138>, 'test': <function Room.test at 0x00000000039EE840>, 'tell_info': <classmethod object at 0x00000000029912E8>, 'wash': <staticmethod object at 0x00000000039C6D68>, '__dict__': <attribute '__dict__' of 'Room' objects>, '__weakref__': <attribute '__weakref__' of 'Room' objects>, '__doc__': None}
# # r1.__dict__: {'name': '一环', 'owner': 'tom', 'width': 100, 'length': 100, 'heigh': 999}
# #
# # Process finished with exit code 0 # 06 组合
# 06 组合 '''
# ------------------------------------------------------------
# # 7、组合
# # # 定义一个人的类,人有头,手,脚等数据属性,这几个属性又可以是通过一个类实例化的对象,这就是组合
# # #
# # # 用途:
# # # 1:做关联
# # # 2:小的组成大的
# ------------------------------------------------------------
'''
#
# class Hand:
# pass
#
# class Foot:
# pass
#
# class Trunk:
# pass
#
# class Head:
# pass
#
# class Person:
# def __init__(self, id_name, name):
# self.id_num = id_name
# self.name = name
# self.hand = Hand()
# self.foot = Foot()
# self.trunk= Trunk()
# self.head = Head()
#
# print("分割线".center(100,"-"))
# print("Person.__dict__: ",Person.__dict__)
# p1 = Person("999","alex")
#
# print("分割线".center(100,"-"))
# print("Person.__dict__: ",Person.__dict__)
# print("p1.__dict__: ", p1.__dict__)
#
# #
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # ------------------------------------------------分割线-------------------------------------------------
# # Person.__dict__: {'__module__': '__main__', '__init__': <function Person.__init__ at 0x0000000002974620>, '__dict__': <attribute '__dict__' of 'Person' objects>, '__weakref__': <attribute '__weakref__' of 'Person' objects>, '__doc__': None}
# # ------------------------------------------------分割线-------------------------------------------------
# # Person.__dict__: {'__module__': '__main__', '__init__': <function Person.__init__ at 0x0000000002974620>, '__dict__': <attribute '__dict__' of 'Person' objects>, '__weakref__': <attribute '__weakref__' of 'Person' objects>, '__doc__': None}
# # p1.__dict__: {'id_num': '999', 'name': 'alex', 'hand': <__main__.Hand object at 0x00000000029912B0>, 'foot': <__main__.Foot object at 0x00000000039DA438>, 'trunk': <__main__.Trunk object at 0x00000000039DA550>, 'head': <__main__.Head object at 0x00000000039DA390>}
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 8、组合1
# # #
# # #
# # #
# ------------------------------------------------------------
'''
#
# class School:
# def __init__(self, name ,addr):
# self.name = name
# self.addr = addr
#
# def zhao_sheng(self):
# print("%s 正在招生" %self.name)
#
# class Course:
# def __init__(self, name, price, period, school):
# self.name = name
# self.price = price
# self.period = period
# self.school = school
#
# s1 = School("oldboy", "北京")
# s2 = School("oldboy", "南京")
# s3 = School("oldboy", "东京")
#
# c1 = Course("linux", 10, '2h', " 北京")
# c2 = Course("python", 33, '22h', s2)
#
# print(c1.__dict__)
# print(c1.school)
# print("分割线".center(100,"-"))
#
# print(c2.__dict__)
# print(c2.school.name)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'name': 'linux', 'price': 10, 'period': '2h', 'school': ' 北京'}
# # 北京
# # ------------------------------------------------分割线-------------------------------------------------
# # {'name': 'python', 'price': 33, 'period': '22h', 'school': <__main__.School object at 0x0000000001E88E48>}
# # oldboy
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 9、组合应用,给区域学校添加课程
# ------------------------------------------------------------
'''
#
# class School:
# def __init__(self, name ,addr):
# self.name = name
# self.addr = addr
#
# def zhao_sheng(self):
# print("%s 正在招生" %self.name)
#
# class Course:
# def __init__(self, name, price, period, school):
# self.name = name
# self.price = price
# self.period = period
# self.school = school
#
# s1 = School("oldboy", "北京")
# s2 = School("oldboy", "南京")
# s3 = School("oldboy", "东京")
#
# msg = """
# 1、老男孩 北京校区
# 2、老男孩 南京校区
# 3、老男孩 东京校区
#
# """
# while True:
# print(msg)
# menu ={
# '1': s1,
# '2': s2,
# '3':s3
# }
# choice = input('选择学校')
# school_obj = menu[choice]
# name = input('课程名>>: ')
# price = input('课程费用>>: ')
# period = input('课程周期>>: ')
# new_course = Course(name, price, period, school_obj)
# print('课程 【%s】 属于 【%s】学校' %(new_course.name, new_course.school.name))
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# #
# # 1、老男孩 北京校区
# # 2、老男孩 南京校区
# # 3、老男孩 东京校区
# #
# #
# # 选择学校1
# # 课程名>>: py
# # 课程费用>>: 999
# #
# # 课程周期>>: 课程 【py】 属于 【oldboy】学校
# #
# # 1、老男孩 北京校区
# # 2、老男孩 南京校区
# # 3、老男孩 东京校区
# #
# # 选择学校 '''
# ------------------------------------------------------------
# # 10、组合应用,给区域学校添加课程2
# # 这个通过的是列表来实现,相对于上面那种,差了一些
# ------------------------------------------------------------
'''
#
# class School:
# def __init__(self, name ,addr):
# self.name = name
# self.addr = addr
# self.course_list = []
# def zhao_sheng(self):
# print("%s 正在招生" %self.name)
#
# class Course:
# def __init__(self, name, price, period):
# self.name = name
# self.price = price
# self.period = period
#
# s1 = School("oldboy", "北京")
# s2 = School("oldboy", "南京")
# s3 = School("oldboy", "东京")
#
# c1 = Course('linux', 11, '1h')
# c2 = Course('python', 10, '66h')
#
# s1.course_list.append(c1)
# s2.course_list.append(c2)
# print(s1.__dict__)
#
# for obj in s1.course_list:
# print(obj.name, obj.price)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'name': 'oldboy', 'addr': '北京', 'course_list': [<__main__.Course object at 0x00000000039DA390>]}
# # linux 11
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 10、组合应用,给区域学校添加课程2
# # 这个通过的是列表来实现,相对于上面那种,差了一些
# ------------------------------------------------------------
'''
#
# class School:
# def __init__(self, name ,addr):
# self.name = name
# self.addr = addr
# self.course_list = []
# def zhao_sheng(self):
# print("%s 正在招生" %self.name)
#
# class Course:
# def __init__(self, name, price, period):
# self.name = name
# self.price = price
# self.period = period
#
# s1 = School("oldboy", "北京")
# s2 = School("oldboy", "南京")
# s3 = School("oldboy", "东京")
#
# c1 = Course('linux', 11, '1h')
# c2 = Course('python', 10, '66h')
#
# s1.course_list.append(c1)
# s2.course_list.append(c2)
# print(s1.__dict__)
#
# for obj in s1.course_list:
# print(obj.name, obj.price)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'name': 'oldboy', 'addr': '北京', 'course_list': [<__main__.Course object at 0x00000000039DA390>]}
# # linux 11
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 10、组合应用,给区域学校添加课程2
# # 这个通过的是列表来实现,相对于上面那种,差了一些
# ------------------------------------------------------------
'''
#
# class School:
# def __init__(self, name ,addr):
# self.name = name
# self.addr = addr
# self.course_list = []
# def zhao_sheng(self):
# print("%s 正在招生" %self.name)
#
# class Course:
# def __init__(self, name, price, period):
# self.name = name
# self.price = price
# self.period = period
#
# s1 = School("oldboy", "北京")
# s2 = School("oldboy", "南京")
# s3 = School("oldboy", "东京")
#
# c1 = Course('linux', 11, '1h')
# c2 = Course('python', 10, '66h')
#
# s1.course_list.append(c1)
# s2.course_list.append(c2)
# print(s1.__dict__)
#
# for obj in s1.course_list:
# print(obj.name, obj.price)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # {'name': 'oldboy', 'addr': '北京', 'course_list': [<__main__.Course object at 0x00000000039DA390>]}
# # linux 11
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 11、类的继承--数值属性继承
# # #
# # # 类的继承跟现实生活中的父、子、孙子、重孙子、继承关系一样,父类又称为基类
# ------------------------------------------------------------
'''
#
# class Dad:
# '这个是一个爸爸类'
# money = 10
# def __init__(self, name):
# print("爸爸")
# self.name = name
# def son(self):
# print("爸爸类的son ", self.name )
#
# class Son(Dad):
# pass
# # # money = 99999
# # def __init__(self, name, age):
# # self.name = name
# # self.age = age
# # def son(self):
# # print("儿子类的son",self.name)
#
#
# print(" Son.money: ", Son.money)
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Son.money: 10
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x0000000002274620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', '__doc__': None}
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 12、类数值属性继承1
# # # 以下列例子为基础,数值属性查找:如果son中有数值属性,那么,就会使用自己的,如果没有,
# # # 就回去Dad类中找
# # # 如果是Dad类中有添加数值属性,Son是继承了Dad类的,如果本身没有的话,仍然能够去Dad类中查找
# # # 本质上,两者的数值属性是相互独立
# ------------------------------------------------------------
'''
#
# class Dad:
# '这个是一个爸爸类'
# money = 10
# def __init__(self, name):
# print("爸爸")
# self.name = name
# def son(self):
# print("爸爸类的son ", self.name )
#
# class Son(Dad):
# # pass
# money = 99999
#
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
# print(" Dad.money: ", Dad.money)
# print(" Son.money: ", Son.money)
# print("分割线".center(100,"-"))
#
# Son.money = 66
# Dad.car = "法拉利"
# print(" Dad.money: ", Dad.money)
# print(" Son.money: ", Son.money)
# print(" Son.car: ", Son.car)
#
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029A4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', 'money': 99999, '__doc__': None}
# # Dad.money: 10
# # Son.money: 99999
# # ------------------------------------------------分割线-------------------------------------------------
# # Dad.money: 10
# # Son.money: 66
# # Son.car: 法拉利
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029A4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>, 'car': '法拉利'}
# # Son.__dict__: {'__module__': '__main__', 'money': 66, '__doc__': None}
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 13、类函数属性继承
# # #
# ------------------------------------------------------------
'''
#
# class Dad:
# '这个是一个爸爸类'
# money = 10
# def __init__(self, name):
# print("爸爸")
# self.name = name
# def son(self):
# print("爸爸类的son ", self.name )
#
# class Son(Dad):
# # pass
# money = 99999
#
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
# s = Son("zhang")
# print(s.name, s.money)
# s.son()
# print("分割线".center(100,"-"))
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
#
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029A4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', 'money': 99999, '__doc__': None}
# # 爸爸
# # zhang 99999
# # 爸爸类的son zhang
# # ------------------------------------------------分割线-------------------------------------------------
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029A4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', 'money': 99999, '__doc__': None}
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 14、类函数属性继承2
# # # Dad类与继承类Son中,如果Son中有自己的函数属性就用自己的
# ------------------------------------------------------------
'''
#
# class Dad:
# '这个是一个爸爸类'
# money = 10
# def __init__(self, name):
# print("这个是一个Dad类中的__init__")
# self.name = name
# def son(self):
# print("爸爸类的son ", self.name )
#
# class Son(Dad):
# money = 99999
# def son(self):
# print("Son类的son函数 ", self.name )
#
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
# s = Son("zhang")
# d = Dad("张一鸣")
#
# print("分割线Son".center(100,"-"))
# print(s.name, s.money)
# s.son()
#
# print("分割线 Dad".center(100,"-"))
# print(d.name, d.money)
# d.son()
# print("分割线".center(100,"-"))
#
# print(" Dad.__dict__: ", Dad.__dict__)
# print("Son.__dict__: ", Son.__dict__)
#
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029B4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', 'money': 99999, 'son': <function Son.son at 0x00000000039EE840>, '__doc__': None}
# # 这个是一个Dad类中的__init__
# # 这个是一个Dad类中的__init__
# # -----------------------------------------------分割线Son-----------------------------------------------
# # zhang 99999
# # Son类的son函数 zhang
# # ----------------------------------------------分割线 Dad-----------------------------------------------
# # 张一鸣 10
# # 爸爸类的son 张一鸣
# # ------------------------------------------------分割线-------------------------------------------------
# # Dad.__dict__: {'__module__': '__main__', '__doc__': '这个是一个爸爸类', 'money': 10, '__init__': <function Dad.__init__ at 0x00000000029B4620>, 'son': <function Dad.son at 0x00000000039EE7B8>, '__dict__': <attribute '__dict__' of 'Dad' objects>, '__weakref__': <attribute '__weakref__' of 'Dad' objects>}
# # Son.__dict__: {'__module__': '__main__', 'money': 99999, 'son': <function Son.son at 0x00000000039EE840>, '__doc__': None}
# #
# # Process finished with exit code 0 # 08 接口继承
# 08 接口继承
'''
# ------------------------------------------------------------
# # 15、接口继承引入
# # # 所有的类都有一个共同的属性方式,这个时候,可以将他们提取出来,放到同一个类当中,作为一
# # # 个基类
# # # 这个属于:继承基类的方法,并且做出自己的改变或者扩展(代码重用)
# # # 但是意义并不是很大,甚至常常是有害的,因为它使得子类与基类出现强耦合;
# # # 因此少用
# ------------------------------------------------------------
'''
#
# class All_file:
# def read(self):
# print('All_file read')
#
# def write(self):
# print('All_file write')
#
# class Disk(All_file):
# # def read(self):
# # print('disk read')
# #
# # def write(self):
# # print('disk write')
# pass
#
# class Cdroom:
# # def read(self):
# # print('Cdroom read')
# #
# # def write(self):
# # print('Cdroom write')
# pass
#
# class Mem(All_file):
# # def read(self):
# # print('Mem read')
# pass
#
#
# m1 = Mem()
# m1.read()
# m1.write()
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # All_file read
# # All_file write
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 15、 @abc.abstractmethod, 接口继承
# # # 以下面为例子,所有类中的共同有的函数属性--write、read全部提取出来到,All_file类中
# # # 通过@abc.abstractmethod进行修饰,所有的继承的类必须要有这个函数
# ------------------------------------------------------------
'''
#
# import abc
# class All_file:
# @abc.abstractmethod
# def read(self):
# pass
#
# @abc.abstractmethod
# def write(self):
# pass
#
# class Disk(All_file):
# def read(self):
# print('disk read')
#
# def write(self):
# print('disk write')
# # pass
#
# class Cdroom(All_file):
# def read(self):
# print('Cdroom read')
#
# def write(self):
# print('Cdroom write')
#
# class Mem(All_file):
# def read(self):
# print('Mem read')
#
# def write(self):
# print('Mem write')
#
#
# m1 = Mem()
# m1.read()
# m1.write()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Mem read
# # Mem write
# #
# # Process finished with exit code 0
# '''
# ------------------------------------------------------------
# # 15.1、 接口继承中,继承者缺少被继承者要求的函数
# # # 继承者==son类,被继承者==parent类,如果继承过程中,parent类接口要求2个函数属性,
# # # son中有1个,会报错
# # # 下面例子,
# # # 被继承者 == All_file; 继承者 == Mem Directory
# ------------------------------------------------------------
'''
#
# import abc
# class All_file:
# @abc.abstractmethod
# def read(self):
# pass
#
# @abc.abstractmethod
# def write(self):
# pass
#
# # Directory,调用内部函数,会报错,因为Directory中没有write函属性
# class Directory(All_file):
# def read(self):
# print('Directory read')
#
# # def write(self):
# # print('Directory write')
# # pass
#
#
# class Mem(All_file):
# def read(self):
# print('Mem read')
#
# # def write(self):
# # print('Mem write')
#
#
# m1 = Mem() # 实例化,不调用,不会报错
#
# d1 = Directory # 仅仅只是实例化,不会报错
# d1.read() # 报错!!实例化后,调用内部函数,因为Directory中没有write函属性
# d1.write() # 报错!!实例化后,调用内部函数,因为Directory中没有write函属性
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Traceback (most recent call last):
# # File "D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py", line 1192, in <module>
# # d1.read() # 报错!!实例化后,调用内部函数,因为Directory中没有write函属性
# # TypeError: read() missing 1 required positional argument: 'self'
# #
# # Process finished with exit code 1 '''
# ------------------------------------------------------------
# # 15.2、 接口继承中,继承者有被继承者要求的函数之外,还有其他函数属性
# # # 以下面为例子,所有类中的共同有的函数属性--write、read全部提取出来到,All_file类中
# # # 通过@abc.abstractmethod进行修饰,所有的继承的类必须要有这个函数,
# # # 但是,继承者在这个基础上可以有其他的函数
# ------------------------------------------------------------
'''
#
# import abc
# class All_file:
# @abc.abstractmethod
# def read(self):
# pass
#
# @abc.abstractmethod
# def write(self):
# pass
#
# class Disk(All_file):
# def read(self):
# print('disk read')
#
# def write(self):
# print('disk write')
#
#
# class Mem(All_file):
# def read(self):
# print('Mem read')
#
# def read_write(self):
# print('Mem read_write')
#
# def write(self):
# print('Mem write')
#
#
#
#
# m1 = Mem()
# m1.read()
# m1.read_write()
# m1.write()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # Mem read
# # Mem read_write
# # Mem write
# #
# # Process finished with exit code 0 # 09 继承顺序之mro线性顺序列表
# 09 继承顺序之mro线性顺序列表
'''
# ------------------------------------------------------------
# # 16、继承顺序引入( 新式类,广度优先)
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A; # ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
#
# class B(A):
# def test(self):
# print("B")
#
# class C(A):
# def test(self):
# print("C")
#
# class D(B):
# def test(self):
# print("D")
#
# class E(C):
# def test(self):
# print("E")
#
#
#
# class F(D,E):
# def test(self):
# print("F")
#
#
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # F
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 16.1、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# def test(self):
# print("B")
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# def test(self):
# print("D")
# pass
#
# class E(C):
# def test(self):
# print("E")
#
# pass
#
# class F(D,E):
# pass
#
#
# f1 = F() # F --> D
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # D
# #
# # Process finished with exit code 0
# '''
# ------------------------------------------------------------
# # 16.2、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# def test(self):
# print("B")
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# def test(self):
# print("E")
#
# pass
#
# class F(D,E):
#
# pass
#
#
# f1 = F() # F --> D --> B
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # B
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 16.3、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# def test(self):
# print("E")
# pass
#
# class F(D,E):
# pass
#
# # F --> D --> B --> 找不到(注意,没有找A),结束;
# # 回来第二条分支 F --> E
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # E
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 16.4、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# pass
#
# class F(D,E):
# pass
#
# # F --> D --> B --> 找不到(注意,没有找A),结束;
# # 回来第二条分支 F --> E --> C
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # C
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 16.5、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# pass
#
# class D(B):
# pass
#
# class E(C):
# pass
#
# class F(D,E):
# pass
#
# # F --> D --> B --> 找不到(注意,没有找A),结束;
# # 回来第二条分支 F --> E --> C --> A(这个是最终的类,如果在没有就会报错)
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # A
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 16.6、总结:继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # # 这种方式称之为:广度优先!python3中的所有的类都是新式类,python2x中的是经典类
# # # 新式类:满足class A(object),即父类是object类_main__.A'>, <class 'object'>(见序号17中的print(F.__mro__) ),
# # # python3中都是新式类,因此 class A == class A(object)
# # # 经典类:????
# # # 当类是经典类时,多继承情况下,会按照深度优先方式查找
# # #
# # # Python成长之路【第九篇】:Python基础之面向对象 - Mr_Albert - 博客园
# # # https://www.cnblogs.com/albert0924/p/8921709.html
# ------------------------------------------------------------
''' '''
# ------------------------------------------------------------
# # 17、继承顺序的的确定
# # # Python到底是如何实现继承的,对于你定义的每一个类,Python会计算出一个方法
# # # 解析顺序(MRO)元组,这个MRO元组就是一个简单的所有基类的线性顺序列表
# # #
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A; # ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# pass
#
# class D(B):
# pass
#
# class E(C):
# pass
#
# class F(D,E):
# pass
#
# # F --> D --> B --> 找不到(注意,没有找A),结束;
# # 回来第二条分支 F --> E --> C --> A(这个是最终的类,如果在没有就会报错)
# f1 = F()
# f1.test()
# print(F.__mro__)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # A
# # (<class '__main__.F'>, <class '__main__.D'>, <class '__main__.B'>, <class '__main__.E'>, <class '__main__.C'>, <class '__main__.A'>, <class 'object'>)
# #
# # Process finished with exit code 0 # 10 在python2中的继承顺序是什么
# 10 在python2中的继承顺序是什么 '''
# ------------------------------------------------------------
# # 18、继承顺序引入( 经典类,深度优先)
# # # 经典类: class A; 新式类:class A(object)
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # #
# # # 编译环境python2.7( 没有标注的都是python3)( 没有标注的都是python3)
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
#
# class B(A):
# def test(self):
# print("B")
#
# class C(A):
# def test(self):
# print("C")
#
# class D(B):
# def test(self):
# print("D")
#
# class E(C):
# def test(self):
# print("E")
#
#
#
# class F(D,E):
# def test(self):
# print("F")
#
#
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # F
# #
# # Process finished with exit code 0
# '''
# ------------------------------------------------------------
# # 18.1、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # #
# # # 编译环境python2.7( 没有标注的都是python3)
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# def test(self):
# print("B")
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# def test(self):
# print("D")
# pass
#
# class E(C):
# def test(self):
# print("E")
#
# pass
#
# class F(D,E):
# pass
#
#
# f1 = F() # F --> D
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # D
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 18.2、继承顺序引入
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # #
# # # 编译环境python2.7( 没有标注的都是python3)
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# def test(self):
# print("B")
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# def test(self):
# print("E")
#
# pass
#
# class F(D,E):
#
# pass
#
#
# f1 = F() # F --> D --> B
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # B
# #
# # Process finished with exit code 0
#
# '''
# ------------------------------------------------------------
# # 18.3、继承顺序引入(与16.3对比)
# # # 深度优先,会使用分支一找到A
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # #
# # # 编译环境python2.7( 没有标注的都是python3)
# ------------------------------------------------------------
'''
# class A:
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# def test(self):
# print("E")
# pass
#
# class F(D,E):
# pass
#
# # F --> D --> B --> A结束;
# # 深度优先
# f1 = F()
# f1.test()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # A
# #
# # Process finished with exit code 0
#
#
#
#
# '''
# ------------------------------------------------------------
# # 18.4、继承顺序引入(与16.3对比)
# # # class A: 经典类,深度优先; class A(object): 新式类,广度优先
# # # 广度优先,B找不到,回来通过E找,后面的同python3的情况
# # # 继承结构:分支一: F --> D --> B --> A;
# # # 分支二: F --> E --> C --> A;
# # #
# # # 编译环境python2.7
# ------------------------------------------------------------
'''
# class A(object):
# def test(self):
# print("A")
# pass
#
# class B(A):
# pass
#
# class C(A):
# def test(self):
# print("C")
# pass
#
# class D(B):
# pass
#
# class E(C):
# def test(self):
# print("E")
# pass
#
# class F(D,E):
# pass
#
# # # F --> D --> B --> 找不到(注意,没有找A),结束;
# # # 回来第二条分支 F --> E
# # 深度优先
# f1 = F()
# f1.test()
#
# D:\C_cache\py\day18_WenJianChuLi\venv\Scripts\python.exe D:/C_cache/py/python2x_env/cache.py
# E
#
# Process finished with exit code 0 #
# 11 在子类中调用父类方法part1
# 11 在子类中调用父类方法part1
'''
# ------------------------------------------------------------
# # 19、子类与父类中__init__有重复
# ------------------------------------------------------------
'''
#
# class Vehicle:
# Country = 'China'
#
# def __init__(self, name, speed, load, power):
# self.name = name
# self.speed = speed
# self.load = load
# self.power = power
#
# def run(self):
# print("Vehicle父类run启动!")
# print("开动了……")
# print("开动了……")
# print("开动了……")
# print("Vehicle父类run结束!")
#
# class Subway(Vehicle):
# def __init__(self, name, speed, load, power, line):
# self.name = name
# self.speed = speed
# self.load = load
# self.power = power
# self.line = line
#
# def show_info(self):
# print(self.name, self.speed, self.load, self.power, self.line)
#
# def run(self):
# print(" %s %s 线,开动啦" % (self.name, self.line))
#
#
# line13 = Subway('北京地铁', '10k/s', 66666, '电', 13)
# line13.show_info()
# line13.run()
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 北京地铁 10k/s 66666 电 13
# # 北京地铁 13 线,开动啦
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 20、关于self自动传入参数的情况:1、实例化; 2、对象调用类方法
# ------------------------------------------------------------
#
''' '''
# ------------------------------------------------------------
# # 21、子类与父类中__init__重复解决方式
# ------------------------------------------------------------
# '''
# class Vehicle:
# Country = 'China'
# def __init__(self, name, speed, load, power):
# self.name = name
# self.speed = speed
# self.load = load
# self.power = power
# def run(self):
# print("Vehicle父类run启动!")
# print("开动了……")
# print("开动了……")
# print("开动了……")
# print("Vehicle父类run结束!")
#
# class Subway(Vehicle):
# # 继承了父类中的__init__,同时自己派生了自己的数值属性,self.line = line
# def __init__(self, name, speed, load, power, line):
# # 子类调用父类方法
# Vehicle.__init__(self, name, speed, load, power)
# # 子类派生自己的属性
# self.line = line
#
# def show_info(self):
# print(self.name, self.speed, self.load, self.power, self.line)
#
# def run(self):
# print(" %s %s 线,开动啦" %(self.name, self.line))
#
#
# line13 = Subway('北京地铁', '10k/s',66666, '电', 13)
# line13.show_info()
# line13.run()
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 北京地铁 10k/s 66666 电 13
# # 北京地铁 13 线,开动啦
# #
# # Process finished with exit code 0 '''
# ------------------------------------------------------------
# # 22、子类调用父类的方法
# ------------------------------------------------------------
'''
#
# class Vehicle:
# Country = 'China'
# def __init__(self, name, speed, load, power):
# self.name = name
# self.speed = speed
# self.load = load
# self.power = power
# def run(self):
# print("Vehicle父类run启动!")
# print("开动了……")
# print("开动了……")
# print("开动了……")
# print("Vehicle父类run结束!")
#
# class Subway(Vehicle):
# def __init__(self, name, speed, load, power, line):
# # 子类调用父类方法
# Vehicle.__init__(self, name, speed, load, power)
# self.line = line
#
# def show_info(self):
# print(self.name, self.speed, self.load, self.power, self.line)
#
# def run(self):
# # 子类调用父类方法
# Vehicle.run(self) # 注意,这里要加入一个self的参数
# print(" %s %s 线,开动啦" %(self.name, self.line))
#
#
# line13 = Subway('北京地铁', '10k/s',66666, '电', 13)
# line13.show_info()
# line13.run()
#
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 北京地铁 10k/s 66666 电 13
# # Vehicle父类run启动!
# # 开动了……
# # 开动了……
# # 开动了……
# # Vehicle父类run结束!
# # 北京地铁 13 线,开动啦
# #
# # Process finished with exit code 0 # ------------------------------------------------分割线-------------------------------------------------
# 12 super调用父类的方法
# 12 super调用父类的方法 '''
# ------------------------------------------------------------
# # 23、super调用父类的方法
# # # =====>>>>>>上面的那种子类调用父类的方法还不够好 下面的1、2、3的表达方式是等价的
1、super().__init__(name, speed, load, power)
2、super(__class__,self).__init__(name,speed,load,power) # __class__是类名,见# print(line13.__class__)
3、super(Subway,self).__init__(name,speed,load,power)
# ------------------------------------------------------------
'''
#
# class Vehicle:
# Country = 'China'
# def __init__(self, name, speed, load, power):
# self.name = name
# self.speed = speed
# self.load = load
# self.power = power
# def run(self):
# print("Vehicle父类run启动!")
# print("开动了……")
# print("开动了……")
# print("开动了……")
# print("Vehicle父类run结束!")
#
# class Subway(Vehicle):
# def __init__(self, name, speed, load, power, line):
# # 子类调用父类方法
# super().__init__(name, speed, load, power)
# self.line = line
#
# def run(self):
# # 子类调用父类方法
# super().run() # 注意这里,没有self
# print(" %s %s 线,开动啦" %(self.name, self.line))
#
# def show_info(self):
# print(self.name, self.speed, self.load, self.power, self.line)
#
# line13 = Subway('北京地铁', '10k/s',66666, '电', 13)
# line13.show_info()
# line13.run()
# print(line13.__class__)
#
# # D:\Anaconda3\python.exe D:/C_cache/py/day25_JingTai_ZuHe_JiCheng/day25_JingTai_ZuHe_JiCheng.py
# # 北京地铁 10k/s 66666 电 13
# # Vehicle父类run启动!
# # 开动了……
# # 开动了……
# # 开动了……
# # Vehicle父类run结束!
# # 北京地铁 13 线,开动啦
# # <class '__main__.Subway'>
# #
# # Process finished with exit code 0