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The languages such as C++ and Java, use access modifiers to restrict access to class members (i.e., variables and methods). These languages have keywords public, protected, and private to specify the type of access.

A class member is said to be public if it can be accessed from anywhere in the program. Private members are allowed to be accessed from within the class only.

  • Usually, methods are defined as public and instance variable are private. This arrangement of private instance variables and public methods ensures implementation of principle of encapsulation.

  • Protected members are accessible from within the class as well as by classes derived from that class.

Unlike these languages, Python has no provision to specify the type of access that a class member may have. By default, all the variables and methods in a class are public.

Example

Here, we have Employee class with instance variables name and age. An object of this class has these two attributes. They can be directly accessed from outside the class, because they are public.

 
class Employee: 'Common base class for all employees' def __init__(self, name="Bhavana", age=24): self.name = name self.age = age e1 = Employee() e2 = Employee("Bharat", 25) print ("Name: {}".format(e1.name)) print ("age: {}".format(e1.age)) print ("Name: {}".format(e2.name)) print ("age: {}".format(e2.age))

It will produce the following output −

Name: Bhavana
age: 24
Name: Bharat
age: 25

Python doesn't enforce restrictions on accessing any instance variable or method. However, Python prescribes a convention of prefixing name of variable/method with single or double underscore to emulate behavior of protected and private access modifiers.

To indicate that an instance variable is private, prefix it with double underscore (such as "__age"). To imply that a certain instance variable is protected, prefix it with single underscore (such as "_salary")

Example

Let us modify the Employee class. Add another instance variable salary. Make age private and salary as protected by prefixing double and single underscores respectively.

 
class Employee: def __init__(self, name, age, salary): self.name = name # public variable self.__age = age # private variable self._salary = salary # protected variable def displayEmployee(self): print ("Name : ", self.name, ", age: ", self.__age, ", salary: ", self._salary) e1=Employee("Bhavana", 24, 10000) print (e1.name) print (e1._salary) print (e1.__age)

When you run this code, it will produce the following output −

Bhavana
10000
Traceback (most recent call last):
 File "C:\Users\user\example.py", line 14, in <module>
  print (e1.__age)
        ^^^^^^^^
AttributeError: 'Employee' object has no attribute '__age'

Python displays AttributeError because __age is private, and not available for use outside the class.

Name Mangling

Python doesn't block access to private data, it just leaves for the wisdom of the programmer, not to write any code that access it from outside the class. You can still access the private members by Python's name mangling technique.

Name mangling is the process of changing name of a member with double underscore to the form object._class__variable. If so required, it can still be accessed from outside the class, but the practice should be refrained.

In our example, the private instance variable "__name" is mangled by changing it to the format

obj._class__privatevar

So, to access the value of "__age" instance variable of "e1" object, change it to "e1._Employee__age".

Change the print() statement in the above program to −

print (e1._Employee__age)

It now prints 24, the age of e1.

Python Property Object

Python's standard library has a built-in property() function. It returns a property object. It acts as an interface to the instance variables of a Python class.

The encapsulation principle of object-oriented programming requires that the instance variables should have a restricted private access. Python doesn't have efficient mechanism for the purpose. The property() function provides an alternative.

The property() function uses the getter, setter and delete methods defined in a class to define a property object for the class.

Syntax

property(fget=None, fset=None, fdel=None, doc=None)

Parameters

  • fget − an instance method that retrieves value of an instance variable.

  • fset − an instance method that assigns value to an instance variable.

  • fdel − an instance method that removes an instance variable

  • fdoc − Documentation string for the property.

The function uses getter and setter methods to return the property object.

Getters and Setter Methods

A getter method retrieves the value of an instance variable, usually named as get_varname, whereas the setter method assigns value to an instance variable − named as set_varname.

Let us define getter methods get_name() and get_age(), and setters set_name() and set_age() in the Employee class.

Example

 
class Employee: def __init__(self, name, age): self.__name = name self.__age = age def get_name(self): return self.__name def get_age(self): return self.__age def set_name(self, name): self.__name = name return def set_age(self, age): self.__age=age e1=Employee("Bhavana", 24) print ("Name:", e1.get_name(), "age:", e1.get_age()) e1.set_name("Archana") e1.set_age(21) print ("Name:", e1.get_name(), "age:", e1.get_age())

It will produce the following output −

Name: Bhavana age: 24
Name: Archana age: 21

The getter and setter methods can retrieve or assign value to instance variables. The property() function uses them to add property objects as class attributes.

The name property is defined as −

name = property(get_name, set_name, "name")

Similarly, you can add the age property −

age = property(get_age, set_age, "age")

The advantage of the property object is that you can use to retrieve the value of its associated instance variable, as well as assign value.

For example,

print (e1.name) displays value of e1.__name e1.name = "Archana" assigns value to e1.__age

Example

The complete program with property objects and their use is given below −

 
class Employee: def __init__(self, name, age): self.__name = name self.__age = age def get_name(self): return self.__name def get_age(self): return self.__age def set_name(self, name): self.__name = name return def set_age(self, age): self.__age=age return name = property(get_name, set_name, "name") age = property(get_age, set_age, "age") e1=Employee("Bhavana", 24) print ("Name:", e1.name, "age:", e1.age) e1.name = "Archana" e1.age = 23 print ("Name:", e1.name, "age:", e1.age)

It will produce the following output −

Name: Bhavana age: 24
Name: Archana age: 23

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