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So I'm trying to make a class that extends list, with the extra ability that certain special attributes are mapped to refer to certain parts of the list. Using this Py3k doc page, I created the following code. The idea is that (say I have a sequence instance of this class) sequence.seq should act exactly like sequence[0], and sequence.index should act exactly like sequence[2], etc.

It seems to work great, except that I can't seem to access the class variable mapping attributes to the list.

I found this SO question, but either the answer there is wrong, or something is different within methods. I could also use self.__class__.__map__, but since I need the class variable inside __getattribute__, that sends me into an infinite recursion loop.

>>> class Sequence(list):
...      __map__ = {'seq': 0,
...                 'size': 1,
...                 'index': 2,
...                 'fdbid': 3,
...                 'guide': 4,
...                 'factors': 5,
...                 'clas': 6,
...                 'sorttime': 7,
...                 'time': 8,
...                 'res': 9,
...                 'driver': 10 }
...      
...      def __setattr__(self, name, value): # "Black magic" meta programming to make certain attributes access the list
...           print('Setting atr', name, 'with val', value)
...           try:
...                self[__map__[name]] = value
...           except KeyError:
...                object.__setattr__(self, name, value)
...      
...      def __getattribute__(self, name):
...           print('Getting atr', name)
...           try:
...                return self[__map__[name]]
...           except KeyError:
...                return object.__getattribute__(self, name)
...      
...      def __init__(self, seq=0, size=0, index=0, fdbid=0, guide=None, factors=None, 
...           sorttime=None, time=None):
...                super().__init__([None for i in range(11)]) # Be sure the list has the necessary length
...                self.seq = seq
...                self.index = index
...                self.size = size
...                self.fdbid = fdbid
...                self.guide = ''
...                self.time = time
...                self.sorttime = sorttime
...                self.factors = factors
...                self.res = ''
...                self.driver = ''
... 
>>> a = Sequence()
Setting atr seq with val 0
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 31, in __init__
  File "<stdin>", line 17, in __setattr__
NameError: global name '__map__' is not defined
share|improve this question

2 Answers 2

up vote 1 down vote accepted

Since none of the methods are called until after Sequence is fully defined, you can refer to Sequence.__map__ without any trouble. For example:

def __setattr(self, name, value):
    print('Setting atr', name, 'with val', value)
    try:
        self[Sequence.__map__[name]] = value
    except KeyError:
        object.__setattr__(self, name, value)

As an aside, here's a demonstration that class attributes may be accessed via objects as long as an instance attribute with the same name does not also exist:

class Foo:
    i = 3
    def __init__(self, overwrite):
        if overwrite:
            self.i = 4

f = Foo(False)
id(f.i) == id(Foo.i)     # Should be True
f = Foo(True)
id(f.i) == id(Foo.i)     # Should be False
share|improve this answer
    
I was trying to do it without using the literal class name in the code... but at least it's a solution. I forgot about the methods-not-called-until-after-definition, thanks for the reminder ;) –  Dubslow Jul 27 '12 at 2:40
    
So the summary is use var outside method definitions, but use __class__.var inside method definitions. Cool. –  Dubslow Jul 27 '12 at 2:41
    
Hmm... I just tried using self._map "in the field" and it didn't work. It sent me into infinite recursion in __getattribute__ trying to get self._map. I reverted to Sequence._map and that worked fine. –  Dubslow Jul 27 '12 at 6:23
    
Oh, right. Sorry, I forgot that you were redefining getattribute, which gets called when you access an attribute of your object (but not the class). –  chepner Jul 27 '12 at 12:24

You access attributes with a dot (.), not with []. Python doesn't allow you to omit the self reference, so you need to access the class variable with self.__map__. So if you want to access the element at that position, you need self[self.__map__[name]].

Note that it's not a good idea to use double-underscore-sandwiched names for your own purposes. Even two leading underscores (which does name-mangling) is usually more than you need. If you just want to indicate to users that the __map__ attribute isn't part of the public API, call it _map.

share|improve this answer
    
Since Sequence extends the list type, self is also an instance of list, and can be indexed as such. I believe there is no difference between self.__map__ and Sequence.__map__, the style I used in my answer. And good point about preferring _map to __map__. –  chepner Jul 27 '12 at 2:35
    
self.__map__ is not the same as Sequence.__map__. Instances do not have the class variables, see here. Thanks for the tip about hidden variables though, I'll be sure to change that. (And chepner's right, since Sequence subclasses list, as long as I run super().__init__(), self is in fact a list.) –  Dubslow Jul 27 '12 at 2:39
    
@Dubslow: self.__map__ and Sequence.__map__ refer to the same object until you assign to self.__map__. Then self.__map__ is created as an instance attribute separate from the class attribute. –  chepner Jul 27 '12 at 2:50
    
@chepner Then accessing self.__map__ (without assigning it) won't cause it to be added to the instance attribute dict? So I really could use self.__map__ instead of Sequence.__map__ without fear of adding an attribute to the instance? Neat! Sorry about being wrong, I think perhaps that link I posted needs some editing... –  Dubslow Jul 27 '12 at 2:56

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