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I'm wondering if Python has anything like the C# anonymous classes feature. To clarify, here's a sample C# snippet:

var foo = new { x = 1, y = 2 };
var bar = new { y = 2, x = 1 };
foo.Equals(bar); // "true"

In Python, I would imagine something like this:

foo = record(x = 1, y = 2)
bar = record(y = 2, x = 1)
foo == bar  # true

The specific requirement is being able to create an object with specified fields in expression context (e.g. usable in lambdas and other places where statements aren't allowed), with no additional external declarations, and ability to access individual components by name via the normal member access syntax foo.bar. The created object should also implement structural comparison by component names (not by position, as tuples do).

In particular: tuples isn't it because their components are not named; classes isn't it because they require a declaration; dicts isn't it because they have undesired foo["bar"] syntax to access components.

namedtuple isn't it, because it still requires a name even if you define the type inline, and the comparison is position-based, not name-based. In particular:

 def foo(): return namedtuple("Foo", "x y")(x = 1, y = 2)
 def bar(): return namedtuple("Foo", "y x")(x = 1, y = 2)
 foo() == bar()   # False because fields are compared in order, and not by name
                  # True would be desired instead

I know how to write such a thing in Python if needed. But I would like to know if there's anything like that in the Python standard library, or any popular third-party libraries.


Just for the sake of it, here's a single-expression solution that combines two very informative answers by Ken and alanlcode, yielding structural equality without any extra outside declarations:

type("", (), { \
    "__init__": (lambda self, **kwargs: self.__dict__.update(kwargs)), \
    "__eq__": (lambda self, other: self.__dict__ == other.__dict__) } \
)(x = 1, y = 2)

Technically, it satisfies all the requirements of the question, but I sincerely hope that no-one ever uses it (I definitely won't).

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sounds like dictionaries should do the job. I find it's best to find the python way to do it than fit another language in to python. BTW -- if you don't like the dictionary, foo["bar"] access method an alternative is to use the get method: foo.get("bar") –  monkut Jul 14 '09 at 1:36
Given that this is trivially implementable in Python if needed, I don't see any particular reason not to do so, and definitely don't consider it "fitting another language in to Python". Especially as it seems pretty close to the existing namedtuple in intent. –  Pavel Minaev Jul 14 '09 at 1:41
I find it bizarre to ask a question if language X has the feature of language Y, and then require everything to be exactly the same. Languages are not exactly the same. Python does not have anonymous functions, but they have dictionaries, and they work just as well. Yes, the access syntax is different. Big friggin deal. –  Lennart Regebro Jul 14 '09 at 7:30
I'm not asking for feature to be exactly the same - if I did, I'd be asking for static typing and immutability as well ;) I'm merely asking for syntax which I view as more natural and convenient. –  Pavel Minaev Jul 14 '09 at 8:01
I to had a tendency to create objects so I could stick data on them for attribute access in the beginning. You'll get used to dicts soon. –  Lennart Regebro Jul 14 '09 at 14:23

6 Answers 6

up vote 28 down vote accepted

The pythonic way would be to use a dict:

>>> foo = dict(x=1, y=2)
>>> bar = dict(y=2, x=1)
>>> foo == bar

Meets all your requirements except that you still have to do foo['x'] instead of foo.x.

If that's a problem, you could easily define a class such as:

class Bunch(object):
    def __init__(self, **kwds):

    def __eq__(self, other):
        return self.__dict__ == other.__dict__

Or, a nice and short one

class Bunch(dict):
    __getattr__, __setattr__ = dict.get, dict.__setitem__

(but note that this second one has problems as Alex points out in his comment!)

share|improve this answer
From the question - " ... dicts isn't it because they have undesired foo["bar"] syntax to access components." –  too much php Jul 14 '09 at 1:34
this works, except to access things it is foo['x'], not foo.x –  Mike Cooper Jul 14 '09 at 1:34
Nonetheless, the request is what it is, and this doesn't answer it. I also fail to see how it is "un-Pythonic", considering the existence of namedtuple, which gives most of the syntactic sugar that I want. –  Pavel Minaev Jul 14 '09 at 1:44
I think "Bunch" (first form) is the right answer (but I'm biased since I coined the name, 8+ years ago -- see code.activestate.com/recipes/52308 which btw is the top google hit for the search [bunch python];-). The second form has deep and somewhat subtle problems, do x=Bunch(update=23) and see what x.update IS;-) -- you call that NICE?-) –  Alex Martelli Jul 14 '09 at 2:15
@Alex: How about setting __getattribute__ = dict.get? Ugly, yes, but does it still have problems? –  dF. Jul 14 '09 at 2:43

I don't remember offhand if there's a builtin but writing it yourself is shorter than typing your question. :-)

class record(object):
  def __init__(self, **kwargs): self.__dict__ = kwargs
  def __eq__(self, r2): return self.__dict__ == r2.__dict__
  def __neq__(self, r2): return self.__dict__ != r2.__dict__

foo = record(x=1, y=2)
bar = record(y=2, x=1)
foo == bar  # => true
share|improve this answer
Neat (I knew how to do this in general, but didn't realize it's that simple). Now, on to the real question: would you be willing to submit a PEP for the above? :) –  Pavel Minaev Jul 14 '09 at 1:43
By the way, is __neq__ really needed? Isn't the default definition as not __eq__ provided automatically? –  Pavel Minaev Jul 14 '09 at 1:48
Pavel: that's what I initially thought, but when I tried it, it didn't seem to work that way (though it's quite possible I screwed up). –  Ken Jul 14 '09 at 20:53
__neq__ should be __ne__, and no it is not provided automatically. –  Ethan Furman Sep 5 '11 at 3:17

Quoted from this page:

 class Struct:
     def __init__(self, **entries): self.__dict__.update(entries)
     def __eq__(self, other): return self.__dict__ == other.__dict__
     def __neq__(self, other): return self.__dict__ != other.__dict__

 options = Struct(answer=42, linelen = 80, font='courier')
 >>> 42
 options.answer = 'plastics'
 >>> {'answer': 'plastics', 'font': 'courier', 'linelen': 80}
share|improve this answer

1) See http://uszla.me.uk/space/blog/2008/11/06. You can create an anonymous object with slightly ugly syntax by using the type built-in function:

 anon_object_2 = type("", (), {})()

where the 3rd parameter is the dict that will contain the fields of your object.

 foo = type("", (), dict(y=1))()
 foo.y == 1

2) Another variation is proposed by Peter Norvig at http://norvig.com/python-iaq.html. It is also similar to the answer posted by Ken.

class Struct:
    def __init__(self, **entries): self.__dict__.update(entries)

>>> options = Struct(answer=42, linelen = 80, font='courier')
>>> options.answer

The benefit of this method is that you can implement equality by contents of the dict, which the first option doesn't have.

share|improve this answer
I like the 'struct' class. Very useful to me, as my problem didn't require any special methods or operators. In a nutshell, I am using suds/soap and most of the time suds will build a 'reply' object for me, who's structure defined by a WSDL. If you get bad XML, the sax parser throws an exception leaving you with no reply object. I 'fake' a reply object with the Struct class above (setting only properties 'error' and 'message' per my application) and pass this downstream. If error handling ever expects more properties (or methods?) It's easy to add (extend?) this class to match. WIN. –  FlipMcF Jan 3 '12 at 17:59
The true correct answer. Thank you. –  zjm555 Feb 17 at 1:35

The type(...) form will fail the structural comparison requirement (without getting really ugly). The dict(...) form doesn't meet the attribute accessor requirement.

The attrdict seems to fall in the middle somewhere:

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

a = attrdict(x=1, y=2)
b = attrdict(y=2, x=1)

print a.x, a.y
print b.x, b.y
print a == b

But it means defining a special class.

OK, I just noticed the update to the question. I'll just note that you can specify dict for the bases parameter and only need to specify the constructor then (in the icky type expression). I prefer attrdict. :-)

share|improve this answer
Very neat hack, thank you. –  Pavel Minaev Jul 14 '09 at 3:09
Setting self.__dict__ = self causes a memory leak, so I'd advise against this. bugs.python.org/issue1469629 –  rmmh Mar 5 '10 at 5:22

Looks like Python 3.3 has added exactly this thing in the form of types.SimpleNamespace class.

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