104

This thread discusses how to get the name of a function as a string in Python: How to get a function name as a string in Python?

How can I do the same for a variable? As opposed to functions, Python variables do not have the __name__ attribute.

In other words, if I have a variable such as:

foo = dict()
foo['bar'] = 2

I am looking for a function/attribute, e.g. retrieve_name:

retrieve_name(foo) 

that returns the string 'foo'

Update:

Since people are asking why I want to do this, here is an example. I would like to create a DataFrame in Pandas from this list, where the column names are given by the names of the actual dictionaries:

# List of dictionaries for my DataFrame
list_of_dicts = [n_jobs, users, queues, priorities]

16 Answers 16

89

The only objects in Python that have canonical names are modules, functions, and classes, and of course there is no guarantee that this canonical name has any meaning in any namespace after the function or class has been defined or the module imported. These names can also be modified after the objects are created so they may not always be particularly trustworthy.

What you want to do is not possible without recursively walking the tree of named objects; a name is a one-way reference to an object. A common or garden-variety Python object contains no references to its names. Imagine if every integer, every dict, every list, every Boolean needed to maintain a list of strings that represented names that referred to it! It would be an implementation nightmare, with little benefit to the programmer.

  • 7
    Thanks. But why does Python do this for functions then ? (i.e. one type of Python objects) – Amelio Vazquez-Reina Aug 25 '13 at 3:09
  • 32
    So error messages can make sense. – kindall Aug 25 '13 at 3:10
  • 1
    @kindall: don't forget modules: they have canonical names too. Also, don't forget that __name__ can always be modified, meaning that the "canonical" name may not be a name that can be used to get the object (e.g. when creating classes dynamically). – nneonneo Aug 25 '13 at 3:24
  • 5
    Your statement "it simply isn't possible" is False, as @scohe001 showed. Python's variable name database is just like any other relational DB, you can always search for related objects in "reverse" and return the first found or the whole set of valid variable names for any given variable. – hobs Jan 13 '16 at 20:52
  • 1
    @hobs You are technically correct... the best kind of correct. In practice, however, there are so many potential names for an object that it's more trouble than it's worth to try to get them. – kindall Apr 18 '16 at 20:35
66

Even if variable values don't point back to the name, you have access to the list of every assigned variable and its value, so I'm astounded that only one person suggested looping through there to look for your var name.

Someone mentioned on that answer that you might have to walk the stack and check everyone's locals and globals to find foo, but if foo is assigned in the scope where you're calling this retrieve_name function, you can use inspect's current frame to get you all of those local variables.

My explanation might be a little bit too wordy (maybe I should've used a "foo" less words), but here's how it would look in code (Note that if there is more than one variable assigned to the same value, you will get both of those variable names):

import inspect

x,y,z = 1,2,3

def retrieve_name(var):
    callers_local_vars = inspect.currentframe().f_back.f_locals.items()
    return [var_name for var_name, var_val in callers_local_vars if var_val is var]

print retrieve_name(y)

If you're calling this function from another function, something like:

def foo(bar):
    return retrieve_name(bar)

foo(baz)

And you want the baz instead of bar, you'll just need to go back a scope further. This can be done by adding an extra .f_back in the caller_local_vars initialization.

See an example here: ideone

  • 7
    This will do it. That said: it shouldn't be done at all :) – theodox Aug 25 '13 at 3:57
  • 1
    @theodox I absolutely agree, as this will probably act up with import hooks, ironpython, and jython – scohe001 Aug 25 '13 at 4:04
  • 4
    This won't work. atomic variables don't have their name as an attribute. So if you have a, b = 2, 2, retrieve_name(a) and retrieve_name(b) will both return ['a', 'b'] or ['b', 'a'] – tomas Apr 15 '16 at 10:41
  • 1
    @tomas Actually, that is an implementation detail of an optimization of cPython in which integers below 255 are basically singletons, so any variables assigned those values will effectively return true for an is comparison – Toote Jan 25 '17 at 13:51
  • 5
    This should be the correct answer. – MPath May 19 '17 at 11:01
22

I don't believe this is possible. Consider the following example:

>>> a = []
>>> b = a
>>> id(a)
140031712435664
>>> id(b)
140031712435664

The a and b point to the same object, but the object can't know what variables point to it.

  • 2
    Surely the relationship can be made two-way by extending reference counting. This answer (and some others) even provides an implementation. – Shayn Nov 15 '18 at 15:22
20

On python3, this function will get the outer most name in the stack:

import inspect


def retrieve_name(var):
        """
        Gets the name of var. Does it from the out most frame inner-wards.
        :param var: variable to get name from.
        :return: string
        """
        for fi in reversed(inspect.stack()):
            names = [var_name for var_name, var_val in fi.frame.f_locals.items() if var_val is var]
            if len(names) > 0:
                return names[0]

It is useful anywhere on the code. Traverses the reversed stack looking for the first match.

  • Nice job! Though I try retrieve_name(SomeClass.some_attribute) it doesn't work. May you help further on that? – Nam G VU Mar 27 '18 at 7:59
  • This struggles with boolean variables. I end up with stop_on_error – SumNeuron Apr 2 at 8:39
  • It doesn't work for class variables. – Amanullah Tariq Jul 16 at 14:42
13
def name(**variables):
    return [x for x in variables]

It's used like this:

name(variable=variable)
  • 9
    This will not return the name of the desired variable, but "variables". For example - using name(variable=variable) will output ['variable'], and using name(variable=another_variable) will not output ['another_variable'] but rather ['variable']. – DalyaG May 10 '18 at 12:33
8

Here's one approach. I wouldn't recommend this for anything important, because it'll be quite brittle. But it can be done.

Create a function that uses the inspect module to find the source code that called it. Then you can parse the source code to identify the variable names that you want to retrieve. For example, here's a function called autodict that takes a list of variables and returns a dictionary mapping variable names to their values. E.g.:

x = 'foo'
y = 'bar'
d = autodict(x, y)
print d

Would give:

{'x': 'foo', 'y': 'bar'}

Inspecting the source code itself is better than searching through the locals() or globals() because the latter approach doesn't tell you which of the variables are the ones you want.

At any rate, here's the code:

def autodict(*args):
    get_rid_of = ['autodict(', ',', ')', '\n']
    calling_code = inspect.getouterframes(inspect.currentframe())[1][4][0]
    calling_code = calling_code[calling_code.index('autodict'):]
    for garbage in get_rid_of:
        calling_code = calling_code.replace(garbage, '')
    var_names, var_values = calling_code.split(), args
    dyn_dict = {var_name: var_value for var_name, var_value in
                zip(var_names, var_values)}
    return dyn_dict

The action happens in the line with inspect.getouterframes, which returns the string within the code that called autodict.

The obvious downside to this sort of magic is that it makes assumptions about how the source code is structured. And of course, it won't work at all if it's run inside the interpreter.

  • Hello, I have only three questions: 1. Why "1"? 2. Why "4"? 3. Why "0"? :) – Piotr Wasilewicz Aug 29 at 14:17
5

I wrote the package sorcery to do this kind of magic robustly. You can write:

from sorcery import dict_of

columns = dict_of(n_jobs, users, queues, priorities)

and pass that to the dataframe constructor. It's equivalent to:

columns = dict(n_jobs=n_jobs, users=users, queues=queues, priorities=priorities)
5
>>> locals()['foo']
{}
>>> globals()['foo']
{}

If you wanted to write your own function, it could be done such that you could check for a variable defined in locals then check globals. If nothing is found you could compare on id() to see if the variable points to the same location in memory.

If your variable is in a class, you could use className.dict.keys() or vars(self) to see if your variable has been defined.

  • What if the name is in a caller frame? Then you'd have to silly things like walking the stack and checking everyone's locals and globals...and you risk getting the name wrong if none actually exist. It's a ton of work for no actual useful gain. – nneonneo Aug 25 '13 at 3:22
  • the whole question is silly...but if it's something he wanted to do, it is possible. As far as checking existence you could use Globals().setdefault(var, <new object of type(var)) to create something when nothing is there. I'm not exactly sure what he wants it for, but maybe learning that variables are kept by scope he could figure something better out. – blakev Aug 25 '13 at 3:26
3

In Python, the def and class keywords will bind a specific name to the object they define (function or class). Similarly, modules are given a name by virtue of being called something specific in the filesystem. In all three cases, there's an obvious way to assign a "canonical" name to the object in question.

However, for other kinds of objects, such a canonical name may simply not exist. For example, consider the elements of a list. The elements in the list are not individually named, and it is entirely possible that the only way to refer to them in a program is by using list indices on the containing list. If such a list of objects was passed into your function, you could not possibly assign meaningful identifiers to the values.

Python doesn't save the name on the left hand side of an assignment into the assigned object because:

  1. It would require figuring out which name was "canonical" among multiple conflicting objects,
  2. It would make no sense for objects which are never assigned to an explicit variable name,
  3. It would be extremely inefficient,
  4. Literally no other language in existence does that.

So, for example, functions defined using lambda will always have the "name" <lambda>, rather than a specific function name.

The best approach would be simply to ask the caller to pass in an (optional) list of names. If typing the '...','...' is too cumbersome, you could accept e.g. a single string containing a comma-separated list of names (like namedtuple does).

3

I think it's so difficult to do this in Python because of the simple fact that you never will not know the name of the variable you're using. So, in his example, you could do:

Instead of:

list_of_dicts = [n_jobs, users, queues, priorities]

dict_of_dicts = {"n_jobs" : n_jobs, "users" : users, "queues" : queues, "priorities" : priorities}
2

just another way to do this based on the content of input variable:

(it returns the name of the first variable that matches to the input variable, otherwise None. One can modify it to get all variable names which are having the same content as input variable)

def retrieve_name(x, Vars=vars()):
    for k in Vars:
        if type(x) == type(Vars[k]):
            if x is Vars[k]:
                return k
    return None
2

This function will print variable name with its value:

def print_this(var):
    callers_local_vars = inspect.currentframe().f_back.f_locals.items()
    print(str([k for k, v in callers_local_vars if v is var][0])+': '+str(var))
***Input & Function call:***
my_var = 10

print_this(my_var)

***Output**:*
my_var: 10
1

If the goal is to help you keep track of your variables, you can write a simple function that labels the variable and returns its value and type. For example, suppose i_f=3.01 and you round it to an integer called i_n to use in a code, and then need a string i_s that will go into a report.

def whatis(string, x):
    print(string+' value=',repr(x),type(x))
    return string+' value='+repr(x)+repr(type(x))
i_f=3.01
i_n=int(i_f)
i_s=str(i_n)
i_l=[i_f, i_n, i_s]
i_u=(i_f, i_n, i_s)

## make report that identifies all types
report='\n'+20*'#'+'\nThis is the report:\n'
report+= whatis('i_f ',i_f)+'\n'
report+=whatis('i_n ',i_n)+'\n'
report+=whatis('i_s ',i_s)+'\n'
report+=whatis('i_l ',i_l)+'\n'
report+=whatis('i_u ',i_u)+'\n'
print(report)

This prints to the window at each call for debugging purposes and also yields a string for the written report. The only downside is that you have to type the variable twice each time you call the function.

I am a Python newbie and found this very useful way to log my efforts as I program and try to cope with all the objects in Python. One flaw is that whatis() fails if it calls a function described outside the procedure where it is used. For example, int(i_f) was a valid function call only because the int function is known to Python. You could call whatis() using int(i_f**2), but if for some strange reason you choose to define a function called int_squared it must be declared inside the procedure where whatis() is used.

0

For constants, you can use an enum, which supports retrieving its name.

0

I try to get name from inspect locals, but it cann't process var likes a[1], b.val. After it, I got a new idea --- get var name from the code, and I try it succ! code like below:

#direct get from called function code
def retrieve_name_ex(var):
    stacks = inspect.stack()
    try:
        func = stacks[0].function
        code = stacks[1].code_context[0]
        s = code.index(func)
        s = code.index("(", s + len(func)) + 1
        e = code.index(")", s)
        return code[s:e].strip()
    except:
        return ""
0

You can try the following to retrieve the name of a function you defined (does not work for built-in functions though):

import re
def retrieve_name(func):
    return re.match("<function\s+(\w+)\s+at.*", str(func)).group(1)

def foo(x):
    return x**2

print(retrieve_name(foo))
# foo

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