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Is it possible to redefine which object the brackets [] use?

I can subclass the list object, but how to I make the interpreter use my subclass in place of the buildin list object? Is it possible?

(I'm pretty sure I'm using the wrong terms for the question- feel free to edit)

>>> class mlist(list):
...     def __init__(self):
...         list.__init__(self)
...     def __getitem__(self, item):
...         return list.__getitem__(self, item) * 2
>>> testlist = mlist()
>>> testlist.append(21)
>>> testlist[0]
>>> list = mlist() # maybe setting the 'list' type will do it?
>>> testlist = []
>>> testlist.append(21)
>>> testlist[0]
21                 # Nope

I don't have a practical use for this- just curious.

share|improve this question
One way (just for curiosity :)) will be by manipulating the byte code by changing BUILD_LIST to LOAD_GLOBAL 'mlist' CALL_FUNCTION ... – mouad Jun 2 '11 at 17:27
up vote 2 down vote accepted

Try running the code after you've run the code you posted

>>> testlist = list()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: 'mlist' object is not callable

Now, determine the type using the code I've posted

>>> type([])
<type 'list'>
>>> type(list)
<class '__main__.mlist'>
>>> type(testlist)
<type 'list'>

it seems that [] creates list, instead of mlist, it looks strange :S


I checked the bytecode generated using dis, and the code below was generated

>>> import dis # python's disassembler

>>> def code1():
...     return []
>>> dis.dis(code1)
  2           0 BUILD_LIST               0
              3 RETURN_VALUE

>>> def code2():
...     return list()
>>> dis.dis(code2)
  2           0 LOAD_GLOBAL              0 (list)
              3 CALL_FUNCTION            0
              6 RETURN_VALUE

It appears that list will invoke whatever is assigned to it, while [] will be converted to BUILD_LIST bytecode. It appears that [] is not translated to list, hence []'s behavior is stucked to creating list.

Update 2

Python class can be updated

>>> class NewList(list):
...     pass
>>> a = NewList()
>>> a.append(23)
>>> a[0]
>>> def double_getitem(self, key):
...     return list.__getitem__(self, key) * 2
>>> NewList.__getitem__ = double_getitem
>>> a[0]

Well, except for builtin classes, like list

>>> list.__getitem__ = double_getitem
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: can't set attributes of built-in/extension type 'list'
share|improve this answer
right- my question is can It be changed so [] creates my object? Can you seamlessly replace the list datatypes with your own subclass? – tMC Jun 2 '11 at 17:07
@tMC see my updates in my post – OnesimusUnbound Jun 2 '11 at 18:09
very interesting- great to know – tMC Jun 2 '11 at 18:16

The brackets are part of the language. They're used to create lists. It's not possible to redefine that (and not desirable either!).

share|improve this answer
Yeah, it could really screw stuff up. It just a curiosity question; I don't think I have a practical use for it. – tMC Jun 2 '11 at 16:41
It is possible, just very, very difficult. – Ignacio Vazquez-Abrams Jun 2 '11 at 16:48
@Ignacio, can you explain how? I'm curious too. :-) – Ben Hoyt Jun 2 '11 at 17:43
@Ignacio: I'd call this building your own language and interpreter on top of Python. It's not Python any more. – Sven Marnach Jun 2 '11 at 18:37
Well, it still uses all the same facilities Python does. It just adds a processing step in the middle. – Ignacio Vazquez-Abrams Jun 2 '11 at 18:55

You can replace list with mlist by using not, as you tried,

list = mlist()

but simply

list = mlist

(You might have problems running this in the interpreter, because mlist() calls list() and so on recursively. But if you put the code that defines mlist in a different scope, such as in a module you import, then it will work.) Then you can create a new mlist by

testlist = list()

but interestingly, not by

testlist = []

which I had thought was syntactically equivalent. Apparently [ ] is hardcoded to call the built-in list type, rather than whatever object is currently named "list".

share|improve this answer
I thought they were as well- hence my curiosity! – tMC Jun 2 '11 at 17:27
Since it's the compiler that translates [] into BUILD_LIST, as Onesimus points out, then I would say no, you absolutely cannot change the behaviour. You could rewrite the compiler to change it but then what you would have would be, in some real sense, not Python but a different language "inspired" by Python. – RoundTower Jun 2 '11 at 17:43
Yeah- My curiosity relates to what can be done with Python the language itself. If you start messing with the Python code, anything is possible – tMC Jun 2 '11 at 17:45

It's possible. Most things are possible in software, if you're willing to get sufficiently dirty. :) It's a bad idea, of course. If you wrote any software using such a change, it would have a number of problems:

  • Readers would be easily confused by your code. They think they're reading Python, so they think they know what [] means, but oops nope they don't.
  • If the scope of the change was global (instead of limited to, say, a single source file) then you would have difficulty combining your software with anyone else's, since you're effectively writing in two different languages. Other software might break if [] starts returning a different type, even if it's a subclass.
  • If the scope of the change is limited, then you may easily end up being confused yourself as you look at different source files with different syntax rules. If you have data that is operated on by different modules, you may find yourself in a circumstance where your code wants that data in an mlist and some other code wants it in a list and then you're probably sad.

Here's a CPython extension module from 2003 (and example) which works with Python 2.3. It very likely needs to be updated to work with more recent versions of Python, but it demonstrates how dirty you need to get for this particular approach.

Another approach is to change things at the level of the grammar. Logix provides tools for this approach. This involves less C hacking, but brings in an entire new parser and compiler.

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