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It would appear that in Python 2, list += x works for any iterable x:

In [6]: l = []

In [7]: l += [1]

In [8]: l += (2, 3)

In [9]: l += xrange(5)

In [10]: l
Out[10]: [1, 2, 3, 0, 1, 2, 3, 4]

Is this behaviour documented anywhere?

To contrast this with list + x, the latter only works if x is also a list. This is spelled out in the documentation.

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3  
I'll look for some documentation to back it up, but I believe in the case of a list the += operator mimics extend. I'll see if I can find something to confirm this. –  RocketDonkey Dec 16 '12 at 19:01
    
1  
@AshwiniChaudhary: I actually looked at the PEP before posting the question, but didn't find anything specifically about += and lists. Is there some part I am overlooking? –  NPE Dec 16 '12 at 19:08
    
@NPE may be this p.boxnet.eu/16970, also from the same PEP: The i' in __iadd__' stands for in-place`, and if you call the module dis on += then you'll see that it is in-place add only. –  Ashwini Chaudhary Dec 16 '12 at 19:12
1  
The closest I have found is a remark in the __iadd__ documentation that " These methods should attempt to do the operation in-place (modifying self) [...]". –  delnan Dec 16 '12 at 19:56

2 Answers 2

up vote 10 down vote accepted

From Guido van Rossum:

It works the same way as .extend() except that it also returns self. I can't find docs explaining this. :-(

Here is the relevant source code taken from listobject.c:

list_inplace_concat(PyListObject *self, PyObject *other)
{
     PyObject *result;

     result = listextend(self, other);
     if (result == NULL)
         return result;
     Py_DECREF(result);
     Py_INCREF(self);
     return (PyObject *)self;
}

I've raised a bug report to have the documentation fixed: http://bugs.python.org/issue16701

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Ha, +1 - you were two sections ahead of me :) –  RocketDonkey Dec 16 '12 at 19:24
2  
The question asks for documentation of this behavior. Source code isn't documentation, and the PEP does not (as far as I can tell from skimming and grepping) define the semantics of += for lists, only the fallback behavior (which lists override). Am I missing something or are you not actually answering the question? -1 for now. –  delnan Dec 16 '12 at 19:38
1  
@delnan What if this thing is actually missing from the docs, docs can have bugs too. –  Ashwini Chaudhary Dec 16 '12 at 19:43
2  
@downvoters kindly explain your downvotes as well. –  Ashwini Chaudhary Dec 16 '12 at 20:23
1  
(+1) for going to the source (GvR, not the source code). –  NPE Dec 16 '12 at 21:17

No (Guido confirms; thanks to Ashwini Chaudhary). The behaviour of += for sequences in general is underspecified. I conclude that it is not required by the specification that x + y where x is a list, and y some other iterable be an error (so other implementations could choose to allow it), and that other implementations could restrict += to require homogenous operands.

However, the reasons not to do this are obvious: python in general tries to do the right thing with operands, rather than requiring rigid type equality. The real mystery is why heterogenous addition is not allowed with lists.

Update: I've never really thought about the nonhomogenous addition problem, largely because itertools.chain is pretty much a complete solution to the problem.

Comments from those more familiar with Python's internals are welcome to explain why addition is required to be homogenous. (Question here: Why must Python list addition be homogenous?)

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Nice answer, thanks. Pretty much echoes my conclusions. (+1) –  NPE Dec 16 '12 at 19:51
2  
@NPE I'm very surprised to realise that this behaviour is not documented. I've never actually questioned the nonheterogenous +, largely because where I want to concatenate a list, and other iterables, I use itertools.chain to avoid the need for copying, except in relation to strings. –  Marcin Dec 16 '12 at 19:54
    
I think the last paragraph deserves a separate SO question. I too have been wondering about this for a long time. –  NPE Dec 16 '12 at 19:58
    
@NPE I'll do that now. –  Marcin Dec 16 '12 at 20:00

protected by Jon Clements Dec 18 '12 at 0:11

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