构造函数:
构造函数是一个唯一的函数,当创建一个类的对象时,它会自动调用。
>
– >创建时,它用于初始化它们。->构造方法命名为__init __()
self关键字:
->用来表示当前对象
>示例:1
class employee: def __init__(self, name, qual,department, year): self.empname = name self.dept = department self.joining_year = year self.qual = qual def work(self): print("working", self.empname, self.dept, self.joining_year)emp1 = employee("guru", "b.com", "development", 2025)emp2 = employee("pritha", "m.e.,", "design", 2025)emp1.work()
>输出:
working guru development 2025
>示例:2
class employee: salary = 25000 def __init__(self, name, qual,department, year): self.empname = name self.dept = department self.joining_year = year self.qual = qual def work(self): print("working", self.empname, self.dept, self.joining_year) print(self.salary)emp1 = employee("guru", "b.com", "development", 2025)emp2 = employee("pritha", "m.e.,", "design", 2025)emp1.work()
>输出:
working guru development 202525000
__ dict __:__dict__是一个将所有实例属性存储为词典的对象的特殊属性。>
>示例:
class employee: salary = 25000 def __init__(self, name, qual,department, year): self.empname = name self.dept = department self.joining_year = year self.qual = qual def work(self): print("working", self.empname, self.dept, self.joining_year) print(self.salary)emp1 = employee("guru", "b.com", "development", 2025)emp2 = employee("pritha", "m.e.,", "design", 2025)print(employee.__dict__)print(emp1.__dict__)print(emp2.__dict__)
>输出:
{'__module__': '__main__', 'salary': 25000, '__init__': , 'work': , '__dict__': , '__weakref__': , '__doc__': none}{'empname': 'guru', 'dept': 'development', 'joining_year': 2025, 'qual': 'b.com'}{'empname': 'pritha', 'dept': 'design', 'joining_year': 2025, 'qual': 'm.e.,'}
带装饰器的类方法
类方法是一种在类本身而不是实例上运行的方法。它是使用@classmethod装饰器定义的,并将cls(类参考)作为其第一个参数。
>示例:
class employee: salary = 25000 def __init__(self, name, qual,department, year): self.empname = name self.dept = department self.joining_year = year self.qual = qual @classmethod def credit_salary(cls): print("credit salary on last day of every month") def work(self): print("working", self.empname, self.dept, self.joining_year) print(self.salary)emp1 = employee("guru", "b.com", "development", 2025)emp2 = employee("pritha", "m.e.,", "design", 2025)employee.credit_salary()
>输出:
>在每个月的最后一天的信用薪金
嵌套类:
>嵌套类(内类)是在另一类中定义的类。
>示例:1(使用外部类的实例调用内部类)
class college: def init(self): print("college constructor") class dept: def init(self): print("dept constructor") def work(self): print("working")principal = college()hod = principal.dept()hod.work()
>示例:2(直接使用外部类名来调用内部类)
class college: def __init__(self): print("college constructor") class dept: def __init__(self): print("dept constructor") def work(self): print("working")hod = college().dept()hod.work()
output :(两个示例的相同输出)
college constructordept constructorworking
构建器过载:
– >构造函数过载是指在类中定义具有不同参数集的多个构造函数。-> python不支持多个构造函数(
init
方法)
-> python通过默认参数值和可变长度参数(*args或** kwargs)列表实现了过载。>示例:
class supermarket: def __init__(self,product_name, price, *discount): self.product_name = product_name self.price = price self.discount = discount def buy(self): print(self.product_name, self.price, self.discount)class shapes: def find_area(self, side1, side2): print(side1 * side2)class square(shapes): passs = square()s.find_area(5,5)class rectangle(shapes): passr = rectangle()r.find_area(10,8)product1 = supermarket("soap", 50, 10)product2 = supermarket("brush", 60,20)product1.buy()product2.buy()product3 = supermarket("rice", 60)product3.buy()
>输出:
soap 50 (10,)brush 60 (20,)rice 60 ()
遗产
– >继承使我们能够定义一个从另一类继承所有方法和属性的类。
>
– >
parent class
是所继承的类,也称为基类。
– >child class是从另一个类继承的类,也称为派生类。
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>python中的继承类型python支持以下类型的继承类型:
>>单继承:一个子类从单亲类继承。
多重继承:子类从多个父类继承。>
多级继承:子类从父级继承,该类本身从另一个父级继承。>>层次结构继承:多个子类从同一父班继承。
>
杂交继承:多种继承类型的组合。
>示例:
class shapes: def find_area(self, side1, side2): print(side1 * side2)class square(shapes): passs = square()s.find_area(5,5)class rectangle(shapes): passr = rectangle()r.find_area(10,8)
>输出:
2580
方法覆盖(运行时多态性) – >方法覆盖发生时,当儿童类提供特定的实现方法,该方法已在其父类中定义。
– >儿童类中的覆盖方法必须具有与父类中的方法相同的名称和参数。
>方法解析顺序(mro)
示例:(多个继承)
class father: def work(self): print("mechanical engineer")class mother: def work(self): print("software engineer")class child(mother, father): def work(self): print("business person")child = child()child.work()
>输出:
商人 – >儿童课源于母亲和父亲。-> python首先检查孩子。
->如果找不到该方法,它将检查母亲(首先列出的父)。
– >如果仍然找不到,它会检查父亲。
>如果一个父类都没有方法,它将检查对象(所有python类的基类)。
运算符过载
运算符超载使我们可以重新定义用户定义对象的操作员( , – , *等)的行为。
print(100+200)print("hi"+"hello")print(100*3)print("hi"*3)
>输出:
300hihello300hihihi
– >操作员 用于添加两个整数以及加入两个字符串并合并两个列表。
->这是可以实现的,因为“ ”运算符被int类和str类超载。
>示例:
class book: def __init__(self, pages): self.pages = pages def __add__(self, second): print(self.pages, second.pages) return self.pages + second.pagesbook1 = book(300)book2 = book(200)print(book1 + book2)
>输出:
300 200500
class Employee: def __init__(self, name, salary): self.name = name self.salary = salary def __mul__(self,other): return self.salary * other.daysclass TimeSheet: def __init__(self, name, days): self.name = name self.days = daysemp1 = Employee("Guru", 1000)timesheet1 = TimeSheet("Guru", 25)print("Monthly salary:",emp1 * timesheet1)
>输出:
每月薪水:25000
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