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What's the difference between:
class Child(SomeBaseClass): def __init__(self): super(Child, self).__init__() and:
class Child(SomeBaseClass): def __init__(self): SomeBaseClass.__init__(self) I've seen super being used quite a lot in classes with only single inheritance. I can see why you'd use it in multiple inheritance but am unclear as to what the advantages are of using it in this kind of situation.
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The super() function is used to give access to methods and properties of a parent or sibling class. The super() function returns an object that represents the parent class.
The super keyword in Java is a reference variable that is used to refer parent class objects. The super() in Java is a reference variable that is used to refer parent class constructors. super can be used to call parent class' variables and methods. super() can be used to call parent class' constructors only.
The “__init__” is a reserved method in python classes. It is known as a constructor in Object-Oriented terminology. This method when called, allows the class to initialize the attributes of the class. The super() function allows us to avoid using the base class name explicitly.
An Overview of Python's super() Function While the official documentation is fairly technical, at a high level super() gives you access to methods in a superclass from the subclass that inherits from it. super() alone returns a temporary object of the superclass that then allows you to call that superclass's methods.
SomeBaseClass.__init__(self) means to call SomeBaseClass's __init__. while
super().__init__() means to call a bound __init__ from the parent class that follows SomeBaseClass's child class (the one that defines this method) in the instance's Method Resolution Order (MRO).
If the instance is a subclass of this child class, there may be a different parent that comes next in the MRO.
When you write a class, you want other classes to be able to use it. super() makes it easier for other classes to use the class you're writing.
As Bob Martin says, a good architecture allows you to postpone decision making as long as possible.
super() can enable that sort of architecture.
When another class subclasses the class you wrote, it could also be inheriting from other classes. And those classes could have an __init__ that comes after this __init__ based on the ordering of the classes for method resolution.
Without super you would likely hard-code the parent of the class you're writing (like the example does). This would mean that you would not call the next __init__ in the MRO, and you would thus not get to reuse the code in it.
If you're writing your own code for personal use, you may not care about this distinction. But if you want others to use your code, using super is one thing that allows greater flexibility for users of the code.
This works in Python 2 and 3:
super(Child, self).__init__() This only works in Python 3:
super().__init__() It works with no arguments by moving up in the stack frame and getting the first argument to the method (usually self for an instance method or cls for a class method - but could be other names) and finding the class (e.g. Child) in the free variables (it is looked up with the name __class__ as a free closure variable in the method).
I used to prefer to demonstrate the cross-compatible way of using super, but now that Python 2 is largely deprecated, I will demonstrate the Python 3 way of doing things, that is, calling super with no arguments.
What does it give you? For single inheritance, the examples from the question are practically identical from a static analysis point of view. However, using super gives you a layer of indirection with forward compatibility.
Forward compatibility is very important to seasoned developers. You want your code to keep working with minimal changes as you change it. When you look at your revision history, you want to see precisely what changed when.
You may start off with single inheritance, but if you decide to add another base class, you only have to change the line with the bases - if the bases change in a class you inherit from (say a mixin is added) you'd change nothing in this class.
In Python 2, getting the arguments to super and the correct method arguments right can be a little confusing, so I suggest using the Python 3 only method of calling it.
If you know you're using super correctly with single inheritance, that makes debugging less difficult going forward.
Other people can use your code and inject parents into the method resolution:
class SomeBaseClass(object): def __init__(self): print('SomeBaseClass.__init__(self) called') class UnsuperChild(SomeBaseClass): def __init__(self): print('UnsuperChild.__init__(self) called') SomeBaseClass.__init__(self) class SuperChild(SomeBaseClass): def __init__(self): print('SuperChild.__init__(self) called') super().__init__() Say you add another class to your object, and want to inject a class between Foo and Bar (for testing or some other reason):
class InjectMe(SomeBaseClass): def __init__(self): print('InjectMe.__init__(self) called') super().__init__() class UnsuperInjector(UnsuperChild, InjectMe): pass class SuperInjector(SuperChild, InjectMe): pass Using the un-super child fails to inject the dependency because the child you're using has hard-coded the method to be called after its own:
>>> o = UnsuperInjector() UnsuperChild.__init__(self) called SomeBaseClass.__init__(self) called However, the class with the child that uses super can correctly inject the dependency:
>>> o2 = SuperInjector() SuperChild.__init__(self) called InjectMe.__init__(self) called SomeBaseClass.__init__(self) called Why in the world would this be useful?
Python linearizes a complicated inheritance tree via the C3 linearization algorithm to create a Method Resolution Order (MRO).
We want methods to be looked up in that order.
For a method defined in a parent to find the next one in that order without super, it would have to
The
UnsuperChildshould not have access toInjectMe. Why isn't the conclusion "Always avoid usingsuper"? What am I missing here?
The UnsuperChild does not have access to InjectMe. It is the UnsuperInjector that has access to InjectMe - and yet cannot call that class's method from the method it inherits from UnsuperChild.
Both Child classes intend to call a method by the same name that comes next in the MRO, which might be another class it was not aware of when it was created.
The one without super hard-codes its parent's method - thus is has restricted the behavior of its method, and subclasses cannot inject functionality in the call chain.
The one with super has greater flexibility. The call chain for the methods can be intercepted and functionality injected.
You may not need that functionality, but subclassers of your code may.
Always use super to reference the parent class instead of hard-coding it.
What you intend is to reference the parent class that is next-in-line, not specifically the one you see the child inheriting from.
Not using super can put unnecessary constraints on users of your code.
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