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I would like to be able to get the name of a variable as a string but I don't know if Python has that much introspection capabilities. Something like:

>>> print(my_var.__name__)

I want to do that because I have a bunch of vars I'd like to turn into a dictionary like :

bar = True
foo = False
>>> my_dict = dict(bar=bar, foo=foo)
>>> print my_dict 
{'foo': False, 'bar': True}

But I'd like something more automatic than that.

Python have locals() and vars(), so I guess there is a way.

share|improve this question
Since people seem to be confused about what's asked for I'll restate it here because it's an interesting question. Given an array [foo, bar, baz] you want a dictionary like {'foo': foo, 'bar': bar, 'baz': baz} and you don't know what variables are in the array. so the questioner is asking how you get name of a variable as a string in python. Now hopefully people can navigate through the awful responses to find the few places where you learn why this isn't really a good idea in python. – Jesse Sherlock Feb 2 '13 at 22:40
Possible duplicate: stackoverflow.com/questions/544919/… – Anderson Green Aug 30 '13 at 2:14
One use for technique would be to streamline string formatting calls: '{var} {foo} {bar}'.format(**named(var, foo, bar)), where "named" is the function that returns the dict('var': var) as described. – Gordon Bean Nov 5 '14 at 19:42

16 Answers 16

up vote 16 down vote accepted

Are you trying to do this?

dict( (name,eval(name)) for name in ['some','list','of','vars'] )


>>> some= 1
>>> list= 2
>>> of= 3
>>> vars= 4
>>> dict( (name,eval(name)) for name in ['some','list','of','vars'] )
{'list': 2, 'some': 1, 'vars': 4, 'of': 3}
share|improve this answer
rlotun is closer to the initial "spirit" of it since it allows to discover the name. I will could use both your anwser. Or maybe just use my damn hand to type. Some things are just not made to be that automatized... – e-satis Mar 31 '10 at 14:08
@e-satis: For @rlotun's to work, you have to provide the list of variables. If you have the list of variables, what's the point of "discovering" their names? – S.Lott Mar 31 '10 at 14:11
Why eval instead of explicitly using locals and globals? – Roger Pate Mar 31 '10 at 14:14
@Roger Pate: Because I couldn't figure out what the point of the whole exercise was. – S.Lott Mar 31 '10 at 14:19
This answer does not answer the question asked. If you have the list of variables, what's the point of "discovering" their names? To avoid duplication so that instead of print('x: ' + x) one could write magic_print(x) and have the same output without writing variable's name twice. – Piotr Dobrogost May 1 '13 at 10:46

As unwind said, this isn't really something you do in Python - variables are actually name mappings to objects.

However, here's one way to try and do it:

 >>> a = 1
 >>> for k, v in list(locals().iteritems()):
         if v is a:
             a_as_str = k
 >>> a_as_str
 >>> type(a_as_str)
share|improve this answer
This idea has merit, but note that if two variable names reference the same value (e.g. True), then an unintended variable name might be returned. – unutbu Mar 31 '10 at 13:57
+1. Very ingenious, a bit overkill and dangerous though. – e-satis Mar 31 '10 at 14:00
Why id(v) == id(a) instead of v is a? This will fail for objects bound to multiple variables, such as ints, strings, and any similarly implemented user-defined types. – Roger Pate Mar 31 '10 at 14:02
Yes, v is a would be a better choice. And yes, certainly dangerous given all the potential pitfalls that could arise! ;-) – rlotun Mar 31 '10 at 14:15
@e-satis I'm surprised you haven't marked this answer as the answer as I agree with your comment saying rlotun is closer to the initial "spirit" of it since it allows to discover the name. Additionally S.Lott's answer does not aswer your question at all... – Piotr Dobrogost May 1 '13 at 10:45

I've wanted to do this quite a lot. This hack is very similar to rlotun's suggestion, but it's a one-liner, which is important to me:

blah = 1
blah_name = [ k for k,v in locals().iteritems() if v is blah][0]
share|improve this answer
@keflavich I liked this approach very much and have used it from time to time now. However I cant get it to work inside functions. I guess there are "better" ways to do it, but none are as nice'n'simple as nbubis puts it. Have you been able to use it in functions keflavich? This is where I ask a question about this. – Leo Sep 9 '13 at 19:31

This is not possible in Python, which really doesn't have "variables". Python has names, and there can be more than one name for the same object.

share|improve this answer
yeah, I know, I made the question simple, but I was expecting more something like "get_var_tags(var)[0]". – e-satis Mar 31 '10 at 13:49

This is a hack. It will not work on all Python implementations distributions (in particular, those that do not have traceback.extract_stack.)

import traceback

def make_dict(*expr):
    text=[name.strip() for name in text[begin:end].split(',')]
    return dict(zip(text,expr))

# {'foo': False, 'bar': True}

Note that this hack is fragile:


(calling make_dict on 2 lines) will not work.

Instead of trying to generate the dict out of the values foo and bar, it would be much more Pythonic to generate the dict out of the string variable names 'foo' and 'bar':

dict([(name,locals()[name]) for name in ('foo','bar')])
share|improve this answer
+1 for the smart hack. Of course, trace back are very slow so it may be slugish to use it. – e-satis Mar 31 '10 at 14:03
+1111111!!!! Yeah it's slow, but when using to replace print("a_very_long_name: {}'.format(a_very_long_name)) who cares! – frnhr Dec 5 '14 at 1:46

I think my problem will help illustrate why this question is useful, and it may give a bit more insight into how to answer it. I wrote a small function to do a quick inline head check on various variables in my code. Basically, it lists the variable name, data type, size, and other attributes, so I can quickly catch any mistakes I've made. The code is simple:

def details(val):
  vn = val.__name__                 #  If such a thing existed
  vs = str(val)
  print("The Value of "+ str(vn) + " is " + vs)
  print("The data type of " + vn + " is " + str(type(val)))

So if you have some complicated dictionary / list / tuple situation, it would be quite helpful to have the interpreter return the variable name you assigned. For instance, here is a weird dictionary:

m = 'abracadabra'
for n in m:
mydic = {'first':(0,1,2,3,4,5,6),'second':mm,'third':np.arange(0.,10)}


The Value of mydic is {'second': ['a', 'b', 'r', 'a', 'c', 'a', 'd', 'a', 'b', 'r', 'a'], 'third': array([ 0.,  1.,  2.,  3.,  4.,  5.,  6.,  7.,  8.,  9.]), 'first': [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]}
The data type of mydic is <type 'dict'>

The Value of mydic['first'] is (0, 1, 2, 3, 4, 5, 6)]
The data type of mydic['first'] is <type 'list'>

The Value of mydic.keys() is ['second', 'third', 'first']
The data type of mydic.keys() is <type 'tuple'>

The Value of mydic['second'][0] is a
The data type of mydic['second'][0] is <type 'str'>

I'm not sure if I put this in the right place, but I thought it might help. I hope it does.

share|improve this answer

I find that if you already have a specific list of values, that the way described by @S. Lotts is the best; however, the way described below works well to get all variables and Classes added throughout the code WITHOUT the need to provide variable name though you can specify them if you want. Code can be extend to exclude Classes.

import types
import math  # mainly showing that you could import what you will before d

# Everything after this counts
d = dict(globals())

def kv_test(k,v):
    return (k not in d and 
            k not in ['d','args'] and
            type(v) is not types.FunctionType)

def magic_print(*args):
    if len(args) == 0: 
        return {k:v for k,v in globals().iteritems() if kv_test(k,v)}
        return {k:v for k,v in magic_print().iteritems() if k in args}

if __name__ == '__main__':
    foo = 1
    bar = 2
    baz = 3
    print magic_print()
    print magic_print('foo')
    print magic_print('foo','bar')


{'baz': 3, 'foo': 1, 'bar': 2}
{'foo': 1}
{'foo': 1, 'bar': 2}
share|improve this answer

In python 3 this is easy

myVariable = 5
for v in locals():
  if id(v) == id("myVariable"):
    print(v, locals()[v])

this will print:

myVariable 5

share|improve this answer
This is similar to rlotun's approach but a bit simplier – officialhopsof Mar 4 '14 at 20:47
-1. Open a new interpreter window and try for v in locals(). – Air May 1 '14 at 20:44
I'm not totally sure what you mean? – officialhopsof Oct 14 '15 at 19:28

In reading the thread, I saw an awful lot of friction. It's easy enough to give a bad answer, then let someone give the correct answer. Anyway, here is what I found.

From: [effbot.org] (http://effbot.org/zone/python-objects.htm#names)

The names are a bit different — they’re not really properties of the object, and the object itself doesn't know what it’s called.

An object can have any number of names, or no name at all.

Names live in namespaces (such as a module namespace, an instance namespace, a function’s local namespace).

Note: that it says the object itself doesn’t know what it’s called, so that was the clue. Python objects are not self-referential. Then it says, Names live in namespaces. We have this in TCL/TK. So maybe my answer will help (but it did help me)

    jj = 123
    print eval("'" + str(id(jj)) + "'")
    print dir()

['__builtins__', '__doc__', '__file__', '__name__', '__package__', 'jj']

So there is 'jj' at the end of the list.

Rewrite the code as:

    jj = 123
    print eval("'" + str(id(jj)) + "'")
    for x in dir():
        print id(eval(x))

['__builtins__', '__doc__', '__file__', '__name__', '__package__', 'jj']

This nasty bit of code id's the name of variable/object/whatever-you-pedantics-call-it.

So, there it is. The memory address of 'jj' is the same when we look for it directly, as when we do the dictionary look up in global name space. I'm sure you can make a function to do this. Just remember which namespace your variable/object/wypci is in.


share|improve this answer
You have two crazy uses of eval here. The first is exactly the same as: print id(jj). The second simply looks up the name, and can be done more easily with vars(). – Ned Batchelder Feb 19 '13 at 1:22

Python3. Use inspect to capture the calling local namespace then use ideas presented here. Can return more than one answer as has been pointed out.

def varname(var):
  import inspect
  frame = inspect.currentframe()
  var_id = id(var)
  for name in frame.f_back.f_locals.keys():
      if id(eval(name)) == var_id:
share|improve this answer
Good answer, but for me it is better with : ... id(eval(name, None, frame.f_back.f_locals)) == ... – Emmanuel DUMAS Sep 2 '15 at 10:04

Most objects don't have a __name__ attribute. (Classes, functions, and modules do; any more builtin types that have one?)

What else would you expect for print(my_var.__name__) other than print("my_var")? Can you simply use the string directly?

You could "slice" a dict:

def dict_slice(D, keys, default=None):
  return dict((k, D.get(k, default)) for k in keys)

print dict_slice(locals(), ["foo", "bar"])
# or use set literal syntax if you have a recent enough version:
print dict_slice(locals(), {"foo", "bar"})


throw = object()  # sentinel
def dict_slice(D, keys, default=throw):
  def get(k):
    v = D.get(k, throw)
    if v is not throw:
      return v
    if default is throw:
      raise KeyError(k)
    return default
  return dict((k, get(k)) for k in keys)
share|improve this answer
+1 but I know that name doesn't exist, why does everybody take this "something like" litteraly? Your solution doesn't solve the problem since I don't want to harcode the name, overwise I would do the dict solution I already gave in the question. – e-satis Mar 31 '10 at 13:51
@e-satis: If simply using everything in locals() solves your problem, I have no idea what you're asking. I'm guessing you're okay with calling some_func(var), so I tried to point out there's not very far from some_func("var"), with dictslice allowing you to get the name-value mapping for multiple variables at once. – Roger Pate Mar 31 '10 at 14:07

Well, I encountered the very same need a few days ago and had to get a variable's name which was pointing to the object itself.

And why was it so necessary?

In short I was building a plug-in for Maya. The core plug-in was built using C++ but the GUI is drawn through Python(as its not processor intensive). Since I, as yet, don't know how to return multiple values from the plug-in except the default MStatus, therefore to update a dictionary in Python I had to pass the the name of the variable, pointing to the object implementing the GUI and which contained the dictionary itself, to the plug-in and then use the MGlobal::executePythonCommand() to update the dictionary from the global scope of Maya.

To do that what I did was something like:

import time

class foo(bar):

    def __init__(self):
        super(foo, self).__init__()
        self.time = time.time() #almost guaranteed to be unique on a single computer

    def name(self):
        g = globals()
        for x in g:
            if isinstance(g[x], type(self)):
                if g[x].time == self.time:
                    return x
                    #or you could:
                    #return filter(None,[x if g[x].time == self.time else None for x in g if isinstance(g[x], type(self))])
                    #and return all keys pointing to object itself

I know that it is not the perfect solution in in the globals many keys could be pointing to the same object e.g.:

a = foo()
b = a

and that the approach isn't thread-safe. Correct me if I am wrong.

At least this approach solved my problem by getting the name of any variable in the global scope which pointed to the object itself and pass it over to the plug-in, as argument, for it use internally.

I tried this on int (the primitive integer class) but the problem is that these primitive classes don't get bypassed (please correct the technical terminology used if its wrong). You could re-implement int and then do int = foo but a = 3 will never be an object of foo but of the primitive. To overcome that you have to a = foo(3) to get a.name() to work.

share|improve this answer

With python 2.7 and newer there is also dictionary comprehension which makes it a bit shorter. If possible I would use getattr instead eval (eval is evil) like in the top answer. Self can be any object which has the context your a looking at. It can be an object or locals=locals() etc.

{name: getattr(self, name) for name in ['some', 'vars', 'here]}
share|improve this answer

Maybe I'm overthinking this but..

str_l = next((k for k,v in locals().items() if id(l) == id(v)))

>>> bar = True
>>> foo = False
>>> my_dict=dict(bar=bar, foo=foo)
>>> next((k for k,v in locals().items() if id(bar) == id(v)))
>>> next((k for k,v in locals().items() if id(foo) == id(v)))
>>> next((k for k,v in locals().items() if id(my_dict) == id(v)))
share|improve this answer

I was working on a similar problem. @S.Lott said "If you have the list of variables, what's the point of "discovering" their names?" And my answer is just to see if it could be done and if for some reason you want to sort your variables by type into lists. So anyways, in my research I came came across this thread and my solution is a bit expanded and is based on @rlotun solution. One other thing, @unutbu said, "This idea has merit, but note that if two variable names reference the same value (e.g. True), then an unintended variable name might be returned." In this exercise that was true so I dealt with it by using a list comprehension similar to this for each possibility: isClass = [i for i in isClass if i != 'item']. Without it "item" would show up in each list.

__metaclass__ = type

from types import *

class Class_1: pass
class Class_2: pass
list_1 = [1, 2, 3]
list_2 = ['dog', 'cat', 'bird']
tuple_1 = ('one', 'two', 'three')
tuple_2 = (1000, 2000, 3000)
dict_1 = {'one': 1, 'two': 2, 'three': 3}
dict_2 = {'dog': 'collie', 'cat': 'calico', 'bird': 'robin'}
x = 23
y = 29
pie = 3.14159
eee = 2.71828
house = 'single story'
cabin = 'cozy'

isClass = []; isList = []; isTuple = []; isDict = []; isInt = []; isFloat = []; isString = []; other = []

mixedDataTypes = [Class_1, list_1, tuple_1, dict_1, x, pie, house, Class_2, list_2, tuple_2, dict_2, y, eee, cabin]

print '\nMIXED_DATA_TYPES total count:', len(mixedDataTypes)

for item in mixedDataTypes:
        # if isinstance(item, ClassType): # use this for old class types (before 3.0)
        if isinstance(item, type):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isClass = [i for i in isClass if i != 'item']

        elif isinstance(item, ListType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isList = [i for i in isList if i != 'item']

        elif isinstance(item, TupleType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isTuple = [i for i in isTuple if i != 'item']

        elif isinstance(item, DictType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isDict = [i for i in isDict if i != 'item']

        elif isinstance(item, IntType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isInt = [i for i in isInt if i != 'item']

        elif isinstance(item, FloatType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isFloat = [i for i in isFloat if i != 'item']

        elif isinstance(item, StringType):
            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            isString = [i for i in isString if i != 'item']

            for k, v in list(locals().iteritems()):
                if v is item:
                    mapping_as_str = k
            other = [i for i in other if i != 'item']

    except (TypeError, AttributeError), e:
        print e

print '\n isClass:', len(isClass), isClass
print '  isList:', len(isList), isList
print ' isTuple:', len(isTuple), isTuple
print '  isDict:', len(isDict), isDict
print '   isInt:', len(isInt), isInt
print ' isFloat:', len(isFloat), isFloat
print 'isString:', len(isString), isString
print '   other:', len(other), other

# my output and the output I wanted
MIXED_DATA_TYPES total count: 14

 isClass: 2 ['Class_1', 'Class_2']
  isList: 2 ['list_1', 'list_2']
 isTuple: 2 ['tuple_1', 'tuple_2']
  isDict: 2 ['dict_1', 'dict_2']
   isInt: 2 ['x', 'y']
 isFloat: 2 ['pie', 'eee']
isString: 2 ['house', 'cabin']
   other: 0 []
share|improve this answer
The issue I'd take with this is that names are not properties of objects. A single object may have multiple names, or no name at all. For instance, you you added pi = pie to your code, you'd get an extra entry in your isFloat list. If you added tuple_1[0] to your mixedDataTypes list, no name will be found for it despite "one" being in your code twice (though thanks to string interning, they'll both be references to the same object). – Blckknght Sep 1 '13 at 14:02
@Blckknght --- I agree. This is just another way to do something that really wasn't meant to be done. I didn't say it renders unique results or that it's infallible. In doing this I found out that using pi and e as variables caused unwanted output and that's because both are part of the math library. For me this was just an exercise to see if it could be done even though the end result isn't perfect. In my learning of this language going through books only goes so far. In my opinion, if you really want to learn the language then you have to play "what if" and see what you come up with. – Michael Swartz Sep 2 '13 at 1:17

you can use easydict

>>> from easydict import EasyDict as edict
>>> d = edict({'foo':3, 'bar':{'x':1, 'y':2}})
>>> d.foo
>>> d.bar.x
>>> d = edict(foo=3)
>>> d.foo

another example:

>>> d = EasyDict(log=False)
>>> d.debug = True
>>> d.items()
[('debug', True), ('log', False)]
share|improve this answer

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