91

In Python, how do you make a subclass from a superclass?

1
  • 3
    Note that the Python changed the way you do subclassing, so there are 2 ways of doing it, and they don't mix. You will get an error if you mix. Read this post to see the difference: stackoverflow.com/questions/1713038/… Jan 23, 2013 at 22:59

13 Answers 13

96
# Initialize using Parent
#
class MySubClass(MySuperClass):
    def __init__(self):
        MySuperClass.__init__(self)

Or, even better, the use of Python's built-in function, super() (see the Python 2/Python 3 documentation for it) may be a slightly better method of calling the parent for initialization:

# Better initialize using Parent (less redundant).
#
class MySubClassBetter(MySuperClass):
    def __init__(self):
        super(MySubClassBetter, self).__init__()

Or, same exact thing as just above, except using the zero argument form of super(), which only works inside a class definition:

class MySubClassBetter(MySuperClass):
    def __init__(self):
        super().__init__()
4
  • 6
    OTOH, some people caution against super, especially for new Python programmers (e.g., Lutz). I avoid it.
    – eric
    Feb 20, 2015 at 20:27
  • 9
    The only reason to avoid super is if you don't understand the differences between how super works in Python, and how super/parent works in other languages. Admittedly this is not obvious to people coming from other languages, but I wouldn't conclude that that qualifies it as something to "caution against". It does work. It just works differently. Just read about what it actually does in Python before you complain about getting results you didn't expect. Nov 16, 2017 at 0:39
  • 6
  • here's this same example with __init__ args Jan 23 at 6:43
69

A heroic little example:

class SuperHero(object): #superclass, inherits from default object
    def getName(self):
        raise NotImplementedError #you want to override this on the child classes

class SuperMan(SuperHero): #subclass, inherits from SuperHero
    def getName(self):
        return "Clark Kent"

class SuperManII(SuperHero): #another subclass
    def getName(self):
       return "Clark Kent, Jr."

if __name__ == "__main__":
    sm = SuperMan()
    print(sm.getName())
    sm2 = SuperManII()
    print(sm2.getName())
    
1
  • Yes... the answer is from 13 years ago, hehe. In any case, now updated ;)
    – ewall
    May 5 at 19:18
38
class MySubClass(MySuperClass):
    def __init__(self):
        MySuperClass.__init__(self)

        # <the rest of your custom initialization code goes here>

The section on inheritance in the python documentation explains it in more detail

2
  • 5
    You only need to define that __init__ method if want to add further code to it, otherwise the original init method is used anyway (although it's worth mentioning, and is perfectly valid code)
    – dbr
    Oct 22, 2009 at 14:37
  • 2
    I think the question was vague enough to assume there might be further code added. Better to provide too much info than not enough and end up with another question when the OP implements it. :)
    – Matt Dewey
    Oct 22, 2009 at 14:50
16
class Class1(object):
    pass

class Class2(Class1):
    pass

Class2 is a sub-class of Class1

1
  • Cool. This is what I was actually looking for, i.e. a sub class with no extension / overrides to the super.
    – BuvinJ
    Nov 26, 2018 at 23:07
11

In the answers above, the super is initialized without any (keyword) arguments. Often, however, you would like to do that, as well as pass on some 'custom' arguments of your own. Here is an example which illustrates this use case:

class SortedList(list):
    def __init__(self, *args, reverse=False, **kwargs):
        super().__init__(*args, **kwargs)       # Initialize the super class
        self.reverse = reverse
        self.sort(reverse=self.reverse)         # Do additional things with the custom keyword arguments

This is a subclass of list which, when initialized, immediately sorts itself in the direction specified by the reverse keyword argument, as the following tests illustrate:

import pytest

def test_1():
    assert SortedList([5, 2, 3]) == [2, 3, 5]

def test_2():
    SortedList([5, 2, 3], reverse=True) == [5, 3, 2]

def test_3():
    with pytest.raises(TypeError):
        sorted_list = SortedList([5, 2, 3], True)   # This doesn't work because 'reverse' must be passed as a keyword argument

if __name__ == "__main__":
    pytest.main([__file__])

Thanks to the passing on of *args to super, the list can be initialized and populated with items instead of only being empty. (Note that reverse is a keyword-only argument in accordance with PEP 3102).

4

There is another way to make subclasses in python dynamically with a function type():

SubClass = type('SubClass', (BaseClass,), {'set_x': set_x})  # Methods can be set, including __init__()

You usually want to use this method when working with metaclasses. When you want to do some lower level automations, that alters way how python creates class. Most likely you will not ever need to do it in this way, but when you do, than you already will know what you are doing.

3
class Subclass (SuperClass):
      # Subclass stuff here
3

You use:

class DerivedClassName(BaseClassName):

For details, see the Python docs, section 9.5.

0
2
class Mammal(object): 
#mammal stuff

class Dog(Mammal): 
#doggie stuff
0
1

Subclassing in Python is done as follows:

class WindowElement:
    def print(self):
        pass

class Button(WindowElement):
    def print(self):
        pass

Here is a tutorial about Python that also contains classes and subclasses.

1
class BankAccount:

  def __init__(self, balance=0):
    self.balance = int(balance)

  def checkBalance(self): ## Checking opening balance....
    return self.balance

  def deposit(self, deposit_amount=1000): ## takes in cash deposit amount and updates the balance accordingly.
    self.deposit_amount = deposit_amount
    self.balance += deposit_amount
    return self.balance

  def withdraw(self, withdraw_amount=500): ## takes in cash withdrawal amount and updates the balance accordingly
    if self.balance < withdraw_amount: ## if amount is greater than balance return `"invalid transaction"`
        return 'invalid transaction'
    else:
      self.balance -= withdraw_amount
      return self.balance


class MinimumBalanceAccount(BankAccount): #subclass MinimumBalanceAccount of the BankAccount class

    def __init__(self,balance=0, minimum_balance=500):
        BankAccount.__init__(self, balance=0)
        self.minimum_balance = minimum_balance
        self.balance = balance - minimum_balance
        #print "Subclass MinimumBalanceAccount of the BankAccount class created!"

    def MinimumBalance(self):
        return self.minimum_balance

c = BankAccount()
print(c.deposit(50))
print(c.withdraw(10))

b = MinimumBalanceAccount(100, 50)
print(b.deposit(50))
print(b.withdraw(10))
print(b.MinimumBalance())
3
  • 5
    This answer would be more helpful if you included an explanation of what it does
    – grooveplex
    Oct 19, 2016 at 20:17
  • 4
    Although this code may help to solve the problem, it doesn't explain why and/or how it answers the question. Providing this additional context would significantly improve its long-term educational value. Please edit your answer to add explanation, including what limitations and assumptions apply. Oct 20, 2016 at 16:33
  • 2
    While this code snippet may solve the question, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion.
    – andreas
    Oct 20, 2016 at 18:21
0

this is a small code:

# create a parent class

class Person(object):
    def __init__(self):
        pass

    def getclass(self):
        return 'I am a Person'
# create two subclass from Parent_class

class Student(Person):
    def __init__(self):
        super(Student, self).__init__()

    def getclass(self):
        return 'I am a student'


class Teacher(Person):
    def __init__(self):
        super(Teacher, self).__init__()

    def getclass(self):
        return 'I am a teacher'


person1 = Person()
print(person1.getclass())

student1 = Student()
print(student1.getclass())

teacher1 = Teacher()
print(teacher1.getclass())

show result:

I am a Person
I am a student
I am a teacher
0

A minor addition to @thompsongunner's answer.

To pass args to your superclass (parent), just use the function signature of the parent class:

class MySubClassBetter(MySuperClass):
    def __init__(self, someArg, someKwarg="someKwarg"):
        super().__init__(someArg, someKwarg=someKwarg)

You are calling the parent's __init__() method as if you are constructing any other class which is why you don't need to include self.

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