1.封装(回顾)
class Person: # 定义基本属性 name = "" age = 0 __weight = 0 # 私有变量 # 定义构造方法,初始化 def __init__(self,n,a,w): self.name = n self.age = a self.__weight = w def speak(self): return "%s 说:我今年%d岁,%d斤。" % (self.name,self.age,self.__weight) p = Person("Ann",24,100) print(p.speak()) print(p.name) print(p.age) print(p.__weight) # 私有变量是无法直接通过对象查看的
2.继承:从基类或父类继承相关的属性或方法
# 继承 class Animal: def run(self): return "Animal is running." class Cat(Animal): pass class Dog(Animal): pass fcat = Cat() fdog = Dog() print(fcat.run()) print(fdog.run())
继承案例:
class Person: name = "" age = 0 # 私有变量 __weight = 0 # 构造函数,勇于实例化时要初始化 def __init__(self,n,a,w): self.name = n self.age = a self.__weight = w def speak(self): print("%s说:今年%d岁。" % (self.name,self.age)) # Student类继承Person类 class Student(Person): # Student类增加了新属性grade grade = "" def __init__(self,n,a,w,g): Person.__init__(self,n,a,w) self.grade = g def speak(self): print("%s说:今年%d岁,在读%s年级。" % (self.name,self.age,self.grade)) s = Student("Ann",10,30,3) print(s.speak()) 结果: Ann说:今年10岁,在读3年级。 None
多继承:如果多个父类中有同样的方法,从左往右检索类,看是否包含所调用的方法,首先检索到的被调用
案例1:
# 多继承 class Animal: def run(self): return "Animal is running." class Cat(): def call(self): return "喵喵喵" class BosiCat(Animal,Cat): # 代码桩 pass foo = BosiCat() print(foo.run()) print(foo.call()) 结果: Animal is running. 喵喵喵
案例2:
class Person: name = "" age = 0 # 私有变量 __weight = 0 # 构造函数,勇于实例化时要初始化 def __init__(self,n,a,w): self.name = n self.age = a self.__weight = w def speak(self): print("%s说:今年%d岁。" % (self.name,self.age)) # Student类继承Person类 class Student(Person): # Student类增加了新属性grade grade = "" def __init__(self,n,a,w,g): Person.__init__(self,n,a,w) self.grade = g def speak(self): print("%s说:今年%d岁,在读%s年级。" % (self.name,self.age,self.grade)) class Speaker(): topic = '' name = '' def __init__(self,t,n): self.topic = t self.name = n def speak(self): print("我叫%s,我是个演说家,演讲的主题是%s。" % (self.name,self.topic)) class Sample(Speaker,Student): a = '' def __init__(self,n,a,w,g,t): Student.__init__(self,n,a,w,g) Speaker.__init__(self,t,n) test = Sample("Ann",24,50,7,"Python") print(test.speak()) 结果: 我叫Ann,我是个演说家,演讲的主题是Python。 None
3.多态:不同类(对象)有同样的方法,但是方法的行为不同
# 多态 class Animal: def run(self): return "Animal is running." class Cat(Animal): def run(self): return "Cat is running." class Dog(Animal): def run(self): return "Dog is running." class Dog1(Animal): pass fcat = Cat() fdog = Dog() fdog1 = Dog1() print(fcat.run()) print(fdog.run()) print(fdog1.run()) 结果: Cat is running. Dog is running. Animal is running.
案例:
# 多态 class Animal: def run(self): print("Animal is running.") class Cat(Animal): def run(self): print("Cat is running.") class Dog(Animal): def run(self): print("Dog is running.") class Dog1(Animal): pass # lst = [Animal(),Cat(),Dog()] # for item in lst: # print(item.run()) def run_two(animal): animal.run() animal.run() #不必对run_two做任何修改,任何依赖animal作为参数的函数或方法都可以不加修改的正常运行,这就是多态 print(run_two(Animal())) print(run_two(Cat())) print(run_two(Dog()))