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In Python, is there a way for an instance of an object to see the variable name it's assigned to? Take the following for example:

class MyObject(object):

x = MyObject()

Is it possible for MyObject to see it's been assigned to a variable name x at any point? Like in it's __init__ method?

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It is not possible - though recently(3-4 months ago) on the Python-ideas list there has been some discussion regarding adding a capability to something like this. – jsbueno Jan 16 '12 at 3:01
The short answer is: no, don't try .. and the real answer is yes, but don't try.. :) – wim Jan 16 '12 at 3:08
up vote 5 down vote accepted

No. Objects and names live in separate dimensions. One object can have many names during its lifetime, and it's impossible to determine which one might be the one you want. Even in here:

class Foo(object):
    def __init__(self): pass

x = Foo()

two names denote the same object (self when __init__ runs, x in global scope).

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Yes, it is possible*. A caveat is there may be multiple names assigned to the same object.

It can be useful for debugging purposes. However, prefer to redesign your code if you ever need the name bound to an object, it usually means the underlying data structures need a rethink.

import gc
import inspect

def find_names(obj):
    frame = inspect.currentframe()
    for frame in iter(lambda: frame.f_back, None):
    result = []
    for referrer in gc.get_referrers(obj):
        if isinstance(referrer, dict):
            for k, v in referrer.iteritems():
                if v is obj:
    return result

* at least in Cpython

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But this won't work at the time of object instantiation - just at some later call to an one of the object methods, when it is already assigned to a variable. Also, since sys._getframe starts with an underscore, I don't think it is usage should be encouraged - inspect.currentframe should be the proper stdlib way of getting to a frame. – jsbueno Jan 16 '12 at 2:56
Wouldn't __init__ have to be completed before you could bind the object to any name? Because __init__ could throw an exception! – wim Jan 16 '12 at 3:17

It can't be ordinarily done, though this can be achieved by using introspection and facilities meant for debugging a program. The code must run from a ".py" file though, and not from just compiled bytecode, or inside a zipped module - as it relies on the reading of the file source code, from within the method that should find about "where it is running".

The trick is to access the execution frame where the object was initialized from - with inspect.currentframe - the frame object has a "f_lineno" value which states the line number where the call to the object method (in this case, __init__) has been called. The function inspect.filename allows one to retrieve the source code for the file, and fetch the apropriate line number.

A naive parse then peek the part preeceding an "=" sign, and assumes it is the variable that will contain the object.

from inspect import currentframe, getfile

class A(object):
    def __init__(self):
        f = currentframe(1)
        filename = getfile(f)
        code_line = open(filename).readlines()[f.f_lineno - 1] 
        assigned_variable = code_line.split("=")[0].strip()
        print assigned_variable

my_name = A()
other_name = A()

That won't work for multiple assignents, expressions composing with the object before the assignemtn is made, objects being appended to lists or added to dictionaries or sets, object instantiation in intialization of for loops, and God knows which more situations -- And have in mind that after the first attribution, the object could be referenced by any other variable as well.

Botton line: it is possible, but as a toy - it can't be used i production code - just have the varibal name to be passed as a string during object initialization, just as one has to do when creating a collections.namedtuple

The "right way" to do it, if you are needing the name, is to explicitly pass the name to the object initialization, as a string parameter, like in:

class A(object):
  def __init__(self, name): = name

x = A("x")

And still, if absolutely need to type the objects'name only once, there is another way - read on. Due to Python's syntax, some special assignments, not using the "=" operator do allow an object to know it is assigned name. So, other statemtns that perform assignents in Python are the for, with, def and class keywords - It is possible to abuse this, as specfically a class creation and a function definition are assignment statements that create objects which "know" their names.

Let's focus on the def statement. It ordinarily creates a function. But using a decorator you can use "def" to create any kind of object - and have the name used for the function available to the constructor:

class MyObject(object):
   def __new__(cls, func):
       # Calls the superclass constructor and actually instantiates the object:
       self = object.__new__(cls)
       #retrieve the function name: = func.func_name
       #returns an instance of this class, instead of a decorated function:
       return self
   def __init__(self, func):
       print "My name is ",

#and the catch is that you can't use "=" to create this object, you have to do:

def my_name(): pass

(This last way of doing it could be used in production code, unlike the one which resorts to reading the source file)

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very interesting! – wim Jan 16 '12 at 3:20

Here is a simple function to achieve what you want, assuming you wish to retrieve the name of the variable where the instance is assigned from a method call :

import inspect

def get_instance_var_name(method_frame, instance):
    parent_frame = method_frame.f_back
    matches = {k: v for k,v in parent_frame.f_globals.items() if v is instance}
    assert len(matches) < 2
    return matches.keys()[0] if matches else None

Here is an usage example :

class Bar:
    def foo(self):
        print get_instance_var_name(inspect.currentframe(), self)

bar = Bar()  # prints 'bar'

def nested():
nested()  # prints 'bar'

Bar().foo()  # prints None
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