I have a base class Person and derived classes Manager and Employee. Now, what I would like to know is the object created is Manager or the Employee.

The person is given as belows:

from Project.CMFCore.utils import getToolByName
schema = getattr(Person, 'schema', Schema(())).copy() + Schema((TextField('FirstName', required = True, widget = StringWidget(label='First Name', i18n_domain='project')), TextField('Last Name', required = True, widget = StringWidget(label='Last Name', i18n_domain='i5', label_msgid='label_pub_city'))
class Manager(BaseContent):
  def get_name(self):
    catalog = getToolByName(self, "portal_catalog")
      people = catalog(portal_type='Person')
      for object in people:
        fname = object.firstName
        lname = object.lastName
        person['name'] = fname+' '+ lname
        # if the derived class is Employee then i would like go to the method title of employee and if its a Manager then go to the title method of Manager
        person['post'] = Employee/Manager.title()
      return person

For Manager and employees they are like (employee is also similar but some different methods)

from Project.Person import Person
class Manager(Person):
    def title(self):
      return "Manager"

For Employee the title is 'Employee'. When I create a Person it is either Manager or the Employee. When I get the person object the class is Person but I would like to know whether it is from the derived class 'Manager' or 'Employee'.

  • Can you put up some code demonstrating what you want to do exactly? Jul 10, 2012 at 7:07

7 Answers 7


I don't know if this is what you want, and the way you'd like it implemented, but here's a try:

>>> class Person(object):
    def _type(self):
        return self.__class__.__name__

>>> p = Person()
>>> p._type()
>>> class Manager(Person):

>>> m = Manager()
>>> m._type()

Pros: only one definition of the _type method.

  • Succinct. Nice use of interactive output. Aug 6, 2016 at 8:47
  • Many Thanks.. This is what I was looking for! Mar 16, 2017 at 9:55
  • What if I have made 3 types of User classes and I want to know about the class of the object I get from request.user. request.user returns an object of User class.
    – Chandan
    Apr 7, 2018 at 16:52
  • I'm sorry @Chandan bu t I don't understand your question. Can you be more precise?
    – Emmanuel
    Apr 9, 2018 at 9:07
  • 1
    @ShlomoGottlieb: this completely changes the solution, since this one is based on the object instance via self... I guess you have to define a static method in every derived class, which is not scalable. But you can use @classmethod similarly: def type2(cls): return cls.__name_
    – Emmanuel
    Jul 20, 2021 at 17:24

You can use x.__class__.__name__ to retrieve the class name as a string, e.g.

class Person:

class Manager(Person):

class Employee(Person):

def get_class_name(instance):
    return instance.__class__.__name__

>>> m = Manager()
>>> print get_class_name(m)
>>> print get_class_name(Employee())

Or, you could use isinstance to check for different types:

>>> print isinstance(m, Person)
>>> print isinstance(m, Manager)
>>> print isinstance(m, Employee)

So you could do something like this:

def handle_person(person):
    if isinstance(person, Manager):
        person.read_paper()     # method of Manager class only
    elif isinstance(person, Employee):
        person.work_hard()      # method of Employee class only
    elif isinstance(person, Person):
        person.blah()           # method of the base class
        print "Not a person"

Python objects provide a __class__ attribute which stores the type used to make that object. This in turns provides a __name__ attribute which can be used to get the name of the type as a string. So, in the simple case:

class A(object):
class B(A):

b = B()
print b.__class__.__name__

Would give:


So, if I follow your question correctly you would do:

m = Manager()
print m.__class__.__name__

Would you be looking for something like this?

>>> class Employee:
...     pass
>>> class Manager(Employee):
...     pass
>>> e = Employee()
>>> m = Manager()
>>> print e.__class__.__name__
>>> print m.__class__.__name__
>>> e.__class__.__name__ == 'Manager'
>>> e.__class__.__name__ == 'Employee'

The best way to "do this" is to not do it. Instead, create methods on Person that are overridden on Manager or Employee, or give the subclasses their own methods that extend the base class.

class Person(object):
    def doYourStuff(self):
        print "I'm just a person, I don't have anything to do"

class Manager(object):
    def doYourStuff(self):
        print "I hereby manage you"

class Employee(object):
    def doYourStuff(self):
        print "I work long hours"

If you find yourself needing to know in the base class which subclass is being instantiated, your program probably has a design error. What will you do if someone else later extends Person to add a new subclass called Contractor? What will Person do when the subclass isn't any of the hard-coded alternatives it knows about?

  • 2
    Doubtful this is the "best way" or that the OP has a broken design. Simpler to implement as shown in this answer in which the base class has a method that all the subclasses can use (for whatever purpose they choose).
    – martineau
    Dec 26, 2016 at 22:40

In your example you do not need to know the class, you just call the method by referring to the class instance:

# if the derived class is Employee then i would like go to the method title 
# of employee and if its a Manager then go to the title method of Manager
person['post'] = object.title()

But do not use object as a variable name, you hide the built-in name.


Python classes have the __subclasses__ magic method which can be used to see which in-scope classes are currently and derived from a given parent class.

# related.py

class Parent: ...

class Child(Parent): ...
>>> from related import Parent
>>> Parent.__subclasses__()
[<class 'related.Child'>]

These classes are weak-references to any in-scope derivative class at the time the Parent class is accessed.

# not_related.py

class StepChild(Parent): ...
>>> from related import Parent
>>> Parent.__subclasses__()
[<class '__main__.Child'>]
>>> from not_related import StepChild
>>> Parent.__subclasses__()
[<class 'related.Child'>, <class 'not_related.StepChild'>]

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