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I find it more conveniant to access dict keys as obj.foo instead of obj['foo'], so I wrote this snippet:

class AttributeDict(dict):
    def __getattr__(self, attr):
        return self[attr]
    def __setattr__(self, attr, value):
        self[attr] = value

However, I assume there must be some reason that Python doesn't provide this functionality out of the box. What would be the caveats and pitfalls of accessing dict keys in this manner?

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5  
If you're accessing hardcoded keys from a fixed-size limited set everywhere, you might be better off creating objects that hold these. collections.namedtuple is very useful for this. –  delnan Feb 13 '11 at 14:32
3  
stackoverflow.com/questions/3031219/… has a similar solution but goes a step further –  keflavich Nov 23 '11 at 0:10
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10 Answers

The best way to do this is:

class AttrDict(dict):
    def __init__(self, *args, **kwargs):
        super(AttrDict, self).__init__(*args, **kwargs)
        self.__dict__ = self

Some pros:

  • It actually works!
  • No dictionary class methods are shadowed (e.g. .keys() work just fine)
  • Attributes and items are always in sync
  • Trying to access non-existant key as an attribute correctly raises AttributeError instead of KeyError

Cons:

  • For the non-initiated it seems like pure magic.
  • Causes a memory leak in Python < 2.7.3 / Python3 < 3.2.3
  • Pylint goes bananas with E1123(unexpected-keyword-arg) and E1103(maybe-no-member)

A short explanation on how this works

  • All python objects internally store their attributes in a dictionary that is named __dict__.
  • There is no requirement that the internal dictionary __dict__ would need to be "just a plain dict", so we can assign any subclass of dict() to the internal dictionary.
  • In our case we simply assign the AttrDict() instance we are instantiating (as we are in __init__).
  • By calling super()'s __init__() method we made sure that it (already) behaves exactly like a dictionary, since that function calls all the dictionary instantiation code.
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1  
can someone kindly explain how this magic works? –  Zhanger Apr 12 '13 at 5:47
    
Do you think the memorry leak would occur with a simple object like: >>> class MyD(object): ... def init__(self, d): ... self.__dict = d –  Rafe Apr 12 '13 at 19:22
    
thanks op for explaining -- i get it now :D –  Zhanger Apr 12 '13 at 21:55
    
Causes the leak even in 2.7 –  pi. Jul 24 '13 at 14:01
    
@pi only in < 2.7.3, fixed my answer –  Kimvais Jul 24 '13 at 14:45
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You can have all legal string characters as part of the key if you use array notation. For example, obj['!#$%^&*()_']

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6  
+1 for actually answering the question –  Izkata Jan 9 '13 at 17:41
    
@Izkata yes. funny thing about SE that there is usually a 'top question' ie. title, and a 'bottom question', perhaps because SE doesn't like to hear "title says it all"; the 'caveats' being the bottom one here. –  naxa Apr 10 at 12:22
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From This other SO question there's a great implementation example that simplifies your existing code. How about:

class AttributeDict(dict): 
    __getattr__ = dict.__getitem__
    __setattr__ = dict.__setitem__

Much more concise and doesn't leave any room for extra cruft getting into your __getattr__ and __setattr__ functions in the future.

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Would you be able to call AttributeDict.update or AttributeDict.get using this method? –  Dor Apr 16 '12 at 13:11
8  
You have to keep in mind that if you add new attributes at runtime they are not added to the dict itself but to the dict attribute. E.g. d = AttributeDict(foo=1). d.bar = 1 the bar attribute is stored inside the dict attribute but not in the dict itself. printing d shows only the foo item. –  P3trus Jun 22 '12 at 13:56
    
-1 for sidestepping the question –  Izkata Jan 9 '13 at 17:43
1  
+1 because it works perfectly as far as I can tell. @GringoSuave, @Izkata, @P3trus I request anyone claiming it fails show an example that doesn’t work d = AttributeDict(foo=1);d.bar = 1;print d => {'foo': 1, 'bar': 1} Works for me! –  Dave Abrahams Aug 23 '13 at 17:38
    
It's been 8 months so I don't remember unfortunately. But, a quick test shows it doesn't work for me under Py 2.6/Windows, yet it does under 2.7/Linux. –  Gringo Suave Aug 24 '13 at 4:06
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Caveat emptor: For some reasons classes like this seem to break the multiprocessing package. I just struggled with this bug for awhile before finding this SO: Finding exception in python multiprocessing

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+1 for actually answering the question –  Izkata Jan 9 '13 at 17:42
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What if you wanted a key which was a method, such as __eq__ or __getattr__?

And you wouldn't be able to have an entry that didn't start with a letter, so using 0343853 as a key is out.

And what if you didn't want to use a string?

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Indeed, or for example other objects as keys. However I would classify the error from that as 'expected behaviour' - with my question I was more aiming towards the unexpected. –  Izz ad-Din Ruhulessin Feb 13 '11 at 14:34
1  
+1 for actually answering the question –  Izkata Jan 9 '13 at 17:42
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It doesn't work in generality. Not all valid dict keys make addressable attributes ("the key"). So, you'll need to be careful.

Python objects are all basically dictionaries. So I doubt there is much performance or other penalty.

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tuples can be used dict keys. How would you access tuple in your construct?

Also, namedtuple is a convenient structure which can provide values via the attribute access.

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2  
The drawback of namedtuples is that they are immutable. –  Izz ad-Din Ruhulessin Feb 13 '11 at 14:41
1  
Some would say that being immutable is not a bug but a feature of tuples. –  ben author Mar 26 '13 at 0:42
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No need to write your own as setattr() and getattr() already exist.

The advantage of class objects probably comes into play in class definition and inheritance.

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I created this based on the input from this thread. I need to use odict though, so I had to override get and set attr. I think this should work for the majority of special uses.

Usage looks like this:

# Create an ordered dict normally...
>>> od = OrderedAttrDict()
>>> od["a"] = 1
>>> od["b"] = 2
>>> od
OrderedAttrDict([('a', 1), ('b', 2)])

# Get and set data using attribute access...
>>> od.a
1
>>> od.b = 20
>>> od
OrderedAttrDict([('a', 1), ('b', 20)])

# Setting a NEW attribute only creates it on the instance, not the dict...
>>> od.c = 8
>>> od
OrderedAttrDict([('a', 1), ('b', 20)])
>>> od.c
8

The class:

class OrderedAttrDict(odict.OrderedDict):
    """
    Constructs an odict.OrderedDict with attribute access to data.

    Setting a NEW attribute only creates it on the instance, not the dict.
    Setting an attribute that is a key in the data will set the dict data but 
    will not create a new instance attribute
    """
    def __getattr__(self, attr):
        """
        Try to get the data. If attr is not a key, fall-back and get the attr
        """
        if self.has_key(attr):
            return super(OrderedAttrDict, self).__getitem__(attr)
        else:
            return super(OrderedAttrDict, self).__getattr__(attr)


    def __setattr__(self, attr, value):
        """
        Try to set the data. If attr is not a key, fall-back and set the attr
        """
        if self.has_key(attr):
            super(OrderedAttrDict, self).__setitem__(attr, value)
        else:
            super(OrderedAttrDict, self).__setattr__(attr, value)

This is a pretty cool pattern already mentioned in the thread, but if you just want to take a dict and convert it to an object that works with auto-complete in an IDE, etc:

class ObjectFromDict(object):
    def __init__(self, d):
        self.__dict__ = d
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You can pull a convenient container class from the standard library:

from argparse import Namespace

to avoid having to copy around code bits. No standard dictionary access, but easy to get one back if you really want it. The code in argparse is simple,

class Namespace(_AttributeHolder):
    """Simple object for storing attributes.

    Implements equality by attribute names and values, and provides a simple
    string representation.
    """

    def __init__(self, **kwargs):
        for name in kwargs:
            setattr(self, name, kwargs[name])

    __hash__ = None

    def __eq__(self, other):
        return vars(self) == vars(other)

    def __ne__(self, other):
        return not (self == other)

    def __contains__(self, key):
        return key in self.__dict__
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