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In Python, __new__ is used to initialize immutable types and __init__ typically initializes mutable types. If __init__ were removed from the language, what could no longer be done (easily)?

For example,

class A:

    def __init__(self, *, x, **kwargs):
        self.x = x

class B(A):

    def __init__(self, y=2, **kwargs):
        self.y = y

Could be rewritten using __new__ like this:

class A_N:

    def __new__(cls, *, x, **kwargs):
        obj = super().__new__(cls, **kwargs)
        obj.x = x
        return obj

class B_N(A_N):

    def __new__(cls, y=2, **kwargs):
        obj = super().__new__(cls, **kwargs)
        obj.y = y
        return obj

Clarification for scope of question: This is not a question about how __init__ and __new__ are used or what is the difference between them. This is a question about what would happen if __init__ were removed from the language. Would anything break? Would anything become a lot harder or impossible to do?

share|improve this question
@matino were is the subjunctive; was is the indicative. – Neil G Feb 17 at 9:22
@MokonaModoki It's not a duplicate. Did you read my clarification? – Neil G Feb 17 at 9:48
@PM2Ring: "__new__ is the constructor, __init__ is the initializer" - why do people keep saying this? In what bizarre definition is __init__ not a constructor? It takes an allocated, uninitialized object and brings it into an initialized, usable state. This is what constructors do in pretty much every language that has constructors. I'm not aware of any definition under which the constructor is responsible for allocation like __new__. Python has its weird allocator/secondary constructor thing in __new__ because it turned out the first constructor design wasn't quite flexible enough. – user2357112 Feb 17 at 17:37
@user2357112: I guess people keep saying that because __new__ returns an instance and __init__ initializes it, and it's convenient to have a clear way to distinguish between these two processes. True, __new__ can do initialization, and it may return an existing instance rather than allocating a fresh one (but when that happens __init__ isn't automatically invoked). But __init__ shouldn't create an instance: it expects to be passed an instance that it can initialize. If you wish to refer to both of these methods as constructors, feel free, but that's not the usual Python convention. – PM 2Ring Feb 17 at 18:02
up vote 3 down vote accepted

Everything you can do in __init__ can also be done in __new__.

Then, why use __init__?
Because you don't have to store instance in variable (obj in your example code), and later bother returning it. You can focus on what you realy want to do – initializing mutable object.

share|improve this answer
I'm going to wait at least day before accepting this since I'm still not sure! – Neil G Feb 17 at 9:24

Note about difference between __new__ and __init__

Before explaining missing functionality let's get back to definition of __new__ and __init__:

__new__ is the first step of instance creation. It's called first, and is responsible for returning a new instance of your class.

However, __init__ doesn't return anything; it's only responsible for initializing the instance after it's been created.

Consequences of replacing __init__ to __new__

Mainly you would loose in flexability. You would get a lot of semantics headaches and loose separation of initializatin and construction (by joining __new__ andinit we are to joining construction and initialization into one step...). Let's take a look on snippet below:

class A(object):
    some_property = 'some_value'

    def __new__(cls, *args, **kwargs):
        obj = object.__new__(cls, *args, **kwargs)
        obj.some_property = cls.some_property
        return obj

class B(A):
    some_property = 2

    def __new__(cls, *args, **kwargs):
        obj = super(B, cls).__new__(cls)
        return obj

Consequences of moving __init__ actions into __new__:

  1. Initialize B before A: When you are using __new__ method instead of __init__ your first step of creating new instance of B is calling A.__new__ as side effect you cannot initialize B before A is initialized ( access and assign some properties to new B instance). Using of __init__ gives you such flexability.

  2. Loose control on initializing order: let's imagine that you have B_N inherited from two classes (A_N1, A_N2), now you would miss controlling of order of initializing new instance of B_N(what is the order you are going to initialize instances ? it could be matter... what is weird.)

  3. Properties and methods mess: you would miss access to A.some_property (cls would be equal to B while instantiating new instance of B. However directly accessing of A.some_property is possible, but my guess it's at least weird to access properties within class throught class name and not by using classmethods).

  4. You cannot re-initialize an existed instance without creating new one or implementation special logic for this ( thanks to @platinhom for idea )

What can __init__ do that __new__ cannot?

There are no actions that cannot be done in __new__ and can in __init__, because actions that __init__ performs is a subset of the actions that can be performed by __new__.

An interesting moment from Python Docs, Pickling and unpickling normal class instances#object.getinitargs regarding when __init__ could be usefull:

When a pickled class instance is unpickled, its init() method is normally not invoked.

share|improve this answer
I know what they do, but this doesn't anwer my question at all. – Neil G Feb 17 at 9:14
1. A's __new__ will create an instance of B if cls=B. 2. The order is the inheritance order just like with __init__. 3. You can access the properties through the created object that is passed. – Neil G Feb 17 at 9:59
Why would you not be able to access A.some_property? – Padraic Cunningham Feb 17 at 10:51
@PadraicCunningham You can. This answer is almost totally wrong. – Neil G Feb 17 at 17:07
@NeilG, I have to say I was thinking the same, I am amazed at how many upvotes this has gotten. – Padraic Cunningham Feb 17 at 17:10

Per When to use __new__ vs. __init__

__new__ is the first step of instance creation. It's called first, and is responsible for returning a new instance of your class. In contrast, __init__ doesn't return anything; it's only responsible for initializing the instance after it's been created.

Also the class of class is type, and type.__call__() is implemented something like below refer to the above description:

def __call__(cls, *args, **kwargs):
    obj = cls.__new__(cls, *args, **kwargs)
    if isinstance(obj, cls):
        obj.__init__(*args, **kwargs)
    return obj

We know __init__() just do a part of __new__() can do anything to that object before the object is returned.

In general, you shouldn't need to override __new__ unless you're subclassing an immutable type like str, int, unicode or tuple.

So it is not good to remove __init__ from the language, and it is better to always use __init__() better than using __new__().

Here is one history of Low-level constructors and __new__().

share|improve this answer
Okay, so the only advantage of __init__ is the convenience of not returning the constructed object? – Neil G Feb 17 at 9:27
@NeilG: Yes, and not having to store instance in variable. – GingerPlusPlus Feb 17 at 9:39

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