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Is it possible to override += in Python?

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4 Answers 4

155

Yes, override the __iadd__ method. Example:

def __iadd__(self, other):
    self.number += other.number
    return self    
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  • 55
    You shouldn't implement __iadd__ if your class represents immutable objects. In that case just implement __add__ which will be used to override += instead. For example you can use += on immutable types such as strings and integers, which couldn't be done using __iadd__. Jan 4, 2010 at 23:26
  • 1
    @ScottGriffiths meant ask "you don't necessarily have to implement __iadd__ to use +=?" Mar 5, 2016 at 22:37
  • 16
    @JosieThompson: If you don't implement __iadd__ then it will use __add__ if available, which is usually just fine. So in that case a += b would be equivalent to a = a + b, which assigns a new value to a instead of changing a itself. Having a separate __iadd__ is typically a nice optimisation rather than something you need to use the += operator. Mar 7, 2016 at 11:50
  • 1
    @ScottGriffiths Is the same true for __imul__? Jun 15, 2018 at 12:24
  • 1
    @Chris_Rands: Yes the same goes for __imul__ and other in-place operators (__isub__, __idiv__ etc.) They should only be defined for mutable objects, and if not defined all will fall back to the standard operators in the same way. So a *= 2 is equivalent to a = a * 2 if __imul__ is not defined for the type of a. Jul 4, 2023 at 17:26
47

In addition to what's correctly given in answers above, it is worth explicitly clarifying that when __iadd__ is overriden, the x += y operation does NOT end with the end of __iadd__ method.

Instead, it ends with x = x.__iadd__(y). In other words, Python assigns the return value of your __iadd__ implementation to the object you're "adding to", AFTER the implementation completes.

This means it is possible to mutate the left side of the x += y operation so that the final implicit step fails. Consider what can happen when you are adding to something that's within a list:

>>> x[1] += y # x has two items

Now, if your __iadd__ implementation (a method of an object at x[1]) erroneously or on purpose removes the first item (x[0]) from the beginning of the list, Python will then run your __iadd__ method) & try to assign its return value to x[1]. Which will no longer exist (it will be at x[0]), resulting in an ÌndexError.

Or, if your __iadd__ inserts something to beginning of x of the above example, your object will be at x[2], not x[1], and whatever was earlier at x[0] will now be at x[1]and be assigned the return value of the __iadd__ invocation.

Unless one understands what's happening, resulting bugs can be a nightmare to fix.

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  • 6
    do you happen to know why __iadd__ is designed like that? i.e. why it assigns the return value rather than just settling with in-place mutation?
    – joel
    Jun 24, 2019 at 21:57
  • 5
    @joel Because that's how it must work with immutable types such as str and int, and, more importantly, tuple and namedtuple.
    – Liz
    Apr 7, 2021 at 19:53
  • if your iadd method changes ("mutates") the object itself, i.e. self, it should "return self" at the end, or else, although the object will be modified, the variable that was holding on to it will be set to None, and if that was the only thing holding on to the object, the object gets garbage collected. Nov 3, 2023 at 4:20
  • An easy-to-forget-or-overlook thing is that a variable is just a holder for something, it's not the thing itself. So if I say x = FooObject, x is a variable that is holding a pointer to a FooObject, but I could say y = x and both y and x would refer to the same object. In that situation, x += "more stuff" could change the object, return None, x would hold None and y would hold the original object, but object has been changed internally. Nov 3, 2023 at 4:24
15

In addition to overloading __iadd__ (remember to return self!), you can also fallback on __add__, as x += y will work like x = x + y. (This is one of the pitfalls of the += operator.)

>>> class A(object):
...   def __init__(self, x):
...     self.x = x
...   def __add__(self, other):
...     return A(self.x + other.x)
>>> a = A(42)
>>> b = A(3)
>>> print a.x, b.x
42 3
>>> old_id = id(a)
>>> a += b
>>> print a.x
45
>>> print old_id == id(a)
False

It even trips up experts:

class Resource(object):
  class_counter = 0
  def __init__(self):
    self.id = self.class_counter
    self.class_counter += 1

x = Resource()
y = Resource()

What values do you expect x.id, y.id, and Resource.class_counter to have?

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  • 11
    Your second example has nothing to do with iadd or +=. The same result occurs if you use self.class_counter = self.class_counter + 1 It's just a scoping issue, using self when Resource should be used.
    – FogleBird
    Jun 26, 2009 at 2:42
  • It's an example of how using += can lead to problems. If you're overloading iadd, then you're opening users of your class (including yourself) to this, and, at the very least, you should know the issue exists beforehand.
    – Roger Pate
    Jun 26, 2009 at 4:06
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    @FogleBird: It is a gotcha because foo += bar can either mean "mutate the existing object that foo refers to" or "assign foo to the object resulting from the expression foo + bar". And which happens depends on whether foo has an __iadd__ method.
    – Claudiu
    Dec 18, 2016 at 7:34
  • In your example, foo is just a number. It's not an instance of the class you're defining. You never call either + or += with the Resource class. It's a gotcha, but it's not related to having or not having a __iadd__ method defined or not defined for Resource.
    – John
    Nov 14, 2022 at 16:36
5

http://docs.python.org/reference/datamodel.html#emulating-numeric-types

For instance, to execute the statement x += y, where x is an instance of a class that has an __iadd__() method, x.__iadd__(y) is called.

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