I have face this weird behavior I can not find explications about.


l = [1]
l += {'a': 2}
[1, 'a']
l + {'B': 3}
Traceback (most recent call last):
  File "<input>", line 1, in <module>
TypeError: can only concatenate list (not "dict") to list

Basically, when I += python does not raise an error and append the key to the list while when I only compute the + I get the expected TypeError.

Note: this is Python 3.6.10

  • 1
  • 2
    See bugs.python.org/issue9314 - "inconsistent result when concatenating list with iterators". Also note += and so on are called "Augmented assignments" from the PEP introducing them, PEP 203.
    – alkasm
    Apr 27, 2020 at 10:52
  • That is something strange Apr 27, 2020 at 10:54
  • 6
    I think the bug link by @alkasm has a statment that explains it well. When a is mutable, a += b updates it in-place, so there is no ambiguity: the type of a cannot change. When you do a + b, there is no reason to treat a as more deserving than b when selecting the type of the result. Apr 27, 2020 at 10:58
  • @ChrisDoyle that is the exact reasoning. It is not "a bug", it's a mechanism that keeps the interpreter from guessing.
    – DeepSpace
    Apr 27, 2020 at 11:00

2 Answers 2


l += ... is actually calling object.__iadd__(self, other) and modifies the object in-place when l is mutable

The reason (as @DeepSpace explains in his comment) is that when you do l += {'a': 2} the operation updates l in place only and only if l is mutable. On the other hand, the operation l + {'a': 2} is not done in place resulting into list + dictionary -> TypeError.

(see here)

l = [1]
l = l.__iadd__({'a': 2})
#[1, 'a']

is not the same as + that calls object.__add__(self, other)

l + {'B': 3}
TypeError: can only concatenate list (not "dict") to list
  • 7
    This should also explain the reasoning. l += ... updates l in place, so the type of the result is clear (= the type of l). l + ... is ambiguous because it is not in place, so the type of the resulting new object is not clear (should it be the type of l or should it be the type of ...?)
    – DeepSpace
    Apr 27, 2020 at 10:58
  • 1
    of course! I added this to my answer. The l += ... operates in-place
    – seralouk
    Apr 27, 2020 at 11:20
  • @seralouk, do you mind sharing which tool you used to found out which function was invoked ? Inspect, pdb etc ?
    – surya
    May 7, 2020 at 5:20
  • the documentation: docs.python.org/3/reference/datamodel.html#object.__iadd__ and some programming knowledge e.g. dictionary are mutables.
    – seralouk
    May 7, 2020 at 7:45
  • @DeepSpace the reasoning makes sense, but __iadd__ is not guaranteed to return the same object. See number += 2. Also, from docs: These methods should attempt to do the operation in-place (modifying self) and return the result (which could be, but does not have to be, self) May 7, 2020 at 16:03

So as the authors say this is not a bug. When you Do a += b it is like b come to a's house and changing it the way that a like it to be. what the Authors say is when you do a + b it cannot be decided which one's style will get prioritized. and no one knows where will the result of a + b will go until you execute it. So you can't decide whose style it would be. if it is a style it would be [1, 'a']'s, and if it is b style it would be an error. and therefore it cannot be decided who will get the priority. So I don't personally agree with that statement. because when you take the call stack a is in a higher place than b. when there is a expression like a + b you first call a.__add__(self, other) if a.__add__ is NotImplemented (in this case it is implemented). then you call a.__radd__(self, other). which means call other.__add__ in this case b.__add__. I am telling this based on the place of the call stack and the python community may have more important reasons to do this.

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