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Is there a built-in method in Python to get an array of all a class' instance variables? For example, if I have this code:

class hi:
  def __init__(self):
    self.ii = "foo"
    self.kk = "bar"

Is there a way for me to do this:

>>> mystery_method(hi)
["ii", "kk"]

Thanks guys!

Edit: I originally had asked for class variables erroneously. Thanks to all who brought this to my attention!

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Your example shows "instance variables". Class variables are another thing. – S.Lott Sep 20 '08 at 19:37

8 Answers 8

up vote 71 down vote accepted

Every object has a __dict__ variable containing all the variables and its values in it.

Try this

>>> hi_obj = hi()
>>> hi_obj.__dict__.keys()
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FWIW, the inspect module gives you a more reliable method than relying on dict, which not all instances have. – Thomas Wouters Sep 20 '08 at 19:40
What kind of an instance does not have dict? I've never encountered one. – Carl Meyer Sep 20 '08 at 23:37
Certain built-in types, such as int. Try saying "x = 5" and then "x.__dict__" and you'll get an AttributeError – Eli Courtwright Sep 21 '08 at 5:47
Also, anything that uses slots. – Thomas Wouters Sep 21 '08 at 8:41
Why would you want to try and get the class instance variables of an int? It's not even a class (although I could be wrong on that). – Martin Sherburn Oct 20 '10 at 14:34

Use vars()

class Foo(object):
    def __init__(self):
        self.a = 1
        self.b = 2

vars(Foo()) #==> {'a': 1, 'b': 2}
vars(Foo()).keys() #==> ['a', 'b']
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+1 I personally think this syntax is cleaner than using dict, since attributes with double underscores are supposed to be "private" in Python syntax. – Martin W Sep 20 '08 at 20:30
@Martin: __method is private, __method__ is a special method, not necessarily private; I would like to say the special methods define an object's capabilites rather than methods. – u0b34a0f6ae Oct 11 '09 at 16:32
__method__ is quite ugly, and I think they have been named that way to try and deter people away from using them unless absolutely necessary. In this case we have the alternative vars(). – Martin Sherburn Nov 10 '10 at 15:32
in my case I tried calling vars(ObjName) and it returns a dict_proxy with a dictionary whose keys are the methods of the given class/object, but no sign of init elements. Any guesses why? – user228137 May 5 '14 at 16:29
Double Underscore Variables __str__, __method__ are for the language itself normally. What happens when you str(something)? – Zizouz212 May 10 at 19:28

You normally can't get instance attributes given just a class, at least not without instantiating the class. You can get instance attributes given an instance, though, or class attributes given a class. See the 'inspect' module. You can't get a list of instance attributes because instances really can have anything as attribute, and -- as in your example -- the normal way to create them is to just assign to them in the __init__ method.

An exception is if your class uses slots, which is a fixed list of attributes that the class allows instances to have. Slots are explained in, but there are various pitfalls with slots; they affect memory layout, so multiple inheritance may be problematic, and inheritance in general has to take slots into account, too.

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Downvoting because "you can't get a list of instance attributes" is simply wrong: both vars() and dict give you exactly that. – Carl Meyer Sep 20 '08 at 23:43
I assume he meant "you can't get a list of all possible instance attributes". For example, I often use lazy generation and the @property decorator to add an instance variable the first time it's requested. Using dict would tell you about this variable once it existed but not beforehand. – Eli Courtwright Sep 21 '08 at 5:51
I didn't downvote, and please notice what I actually said: you can't get a list of instance attributes given just a class, which is what the code accompanying the question tries to do. – Thomas Wouters Sep 21 '08 at 16:00
@Carl: Please educate yourself before writing false comments and downvoting based your lack of knowledge. – nikow May 6 '09 at 19:28

You can also test if an object has a specific variable with:

>>> hi_obj = hi()
>>> hasattr(hi_obj, "some attribute")
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Both the Vars() and dict methods will work for the example the OP posted, but they won't work for "loosely" defined objects like:

class foo:
  a = 'foo'
  b = 'bar'

To print all non-callable attributes, you can use the following function:

def printVars(object):
    for i in [v for v in dir(object) if not callable(getattr(object,v))]:
        print '\n%s:' % i
        exec('print object.%s\n\n') % i
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exec('print object.%s\n\n') % i should be written as print getattr(object, i) – user102008 Jan 5 '11 at 22:18


>>> print vars.__doc__
vars([object]) -> dictionary

Without arguments, equivalent to locals().
With an argument, equivalent to object.__dict__.

In otherwords, it essentially just wraps __dict__

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i agree, i actually meant to include that. i just think vars() looks better – Jeremy Cantrell Sep 20 '08 at 23:59

Although not directly an answer to the OP question, there is a pretty sweet way of finding out what variables are in scope in a function. take a look at this code:

>>> def f(x, y):
    z = x**2 + y**2
    sqrt_z = z**.5
    return sqrt_z

>>> f.func_code.co_varnames
('x', 'y', 'z', 'sqrt_z')

The func_code attribute has all kinds of interesting things in it. It allows you todo some cool stuff. Here is an example of how I have have used this:

def exec_command(self, cmd, msg, sig):

    def message(msg):
        a =

    def error(msg):

    def set_usrlist(msg):
        self.client.connected_users = msg

    def chatmessage(msg):

    if not locals().has_key(cmd): return
    cmd = locals()[cmd]

        if 'sig' in cmd.func_code.co_varnames and \
                       'msg' in cmd.func_code.co_varnames: 
            cmd(msg, sig)
        elif 'msg' in cmd.func_code.co_varnames: 
    except Exception, e:
        print '\n-----------ERROR-----------'
        print 'error: ', e
        print 'Error proccessing: ', cmd.__name__
        print 'Message: ', msg
        print 'Sig: ', sig
        print '-----------ERROR-----------\n'
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Your example shows "instance variables", not really class variables.

Look in hi_obj.__class__.__dict__.items() for the class variables, along with other other class members like member functions and the containing module.

class Hi( object ):
    class_var = ( 23, 'skidoo' ) # class variable
    def __init__( self ):
        self.ii = "foo" # instance variable
        self.jj = "bar"

Class variables are shared by all instances of the class.

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