is there a way to check if a function accepts **kwargs before calling it e.g.

def FuncA(**kwargs):
    print 'ok'

def FuncB(id = None):
    print 'ok'

def FuncC():
    print 'ok'

args = {'id': '1'}


When I run this FuncA and FuncB would be okay but FuncC errors with got an unexpected keyword argument 'id' as it doesn't accept any arguments

  • If it's that important whether the function accepts kwargs, why don't you already know? If it isn't particularly important, then just try, as suggested. Feb 17, 2011 at 13:07

7 Answers 7

except TypeError:
    #do stuff

It's easier to ask forgiveness than permission.

  • 1
    "It is easier to ask for forgiveness than permission".. +1
    – Shawn Chin
    Feb 17, 2011 at 11:42
  • 2
    Sorry, no. This will work with any non-built-in function provided that you craft **kwargs right. def foo(x): return x then foo(**{'x':1}).
    – 9000
    Feb 17, 2011 at 12:02
  • 10
    This gets the job done, but I can't help but feel like its dangerous. If your function throws a TypeError anywhere in the code, its impossible to know from this snippet whether the TypeError is from passing invalid kwargs or from an error in your logic.
    – Dr. Acula
    Mar 17, 2015 at 21:42
  • 11
    The problem with this solution is you can't distinguish an "Argument Binding" TypeError from a TypeError thrown by f. Better to use inspect.Signature.bind
    – Lucretiel
    Apr 24, 2015 at 4:51
  • 1
    This solution should not the the accepted answer. To run a function when only an inspection of the function is required is not the intention of the user question. Running the function could be dangerous and is certainly unintended. Nov 6, 2019 at 18:06
def foo(a, b, **kwargs):

import inspect
args, varargs, varkw, defaults = inspect.getargspec(foo)

This only works for Python functions. Functions defined in C extensions (and built-ins) may be tricky and sometimes interpret their arguments in quite creative ways. There's no way to reliably detect which arguments such functions expect. Refer to function's docstring and other human-readable documentation.

  • 1
    If you're using inspection the name of the keyword argument is irrelevant and you don't check for a named argument. varkw is not None or 'id' in args would be how it should look like. Feb 17, 2011 at 12:26
  • Yes, the name is irrelevant. The presence is relevant. Try inspecting a function without a **kwarg; varkw will be None. I suppose that you check the code samples using an actual interpreter.
    – 9000
    Feb 17, 2011 at 13:02
  • If only the presence is irrelevant, why are you giving an example checking for the name? Feb 17, 2011 at 14:40
  • 1
    EAFP is great for a number of things, but in the case where you are running a function "blindly" without knowing its exact signature without inspection, this answer is much more reliable.
    – PyroAVR
    Jul 3, 2019 at 18:24
  • 2
    inspect.getargspec() is deprecated since Python 3.0, use inspect.signature() or inspect.getfullargspec() instead Apr 25, 2020 at 20:11

func is the function in question.

with python2, it's:

inspect.getargspec(func).keywords is not None

python3 is a bit tricker, following https://www.python.org/dev/peps/pep-0362/ the kind of parameter must be VAR_KEYWORD

Parameter.VAR_KEYWORD - a dict of keyword arguments that aren't bound to any other parameter. This corresponds to a "**kwargs" parameter in a Python function definition.

any(param for param in inspect.signature(func).parameters.values() if param.kind == param.VAR_KEYWORD)

For python > 3 you should to use inspect.getfullargspec.

import inspect

def foo(**bar):

arg_spec = inspect.getfullargspec(foo)
assert arg_spec.varkw and arg_spec.varkw == 'bar'

Seeing that there are a multitude of different answers in this thread, I thought I would give my two cents, using inspect.signature().

Suppose you have this method:

def foo(**kwargs):

You can test if **kwargs are in this method's signature:

import inspect

sig = inspect.signature(foo)
params = sig.parameters.values()
has_kwargs = any([True for p in params if p.kind == p.VAR_KEYWORD])


Getting the parameters in which a method takes is also possible:

import inspect

sig = inspect.signature(foo)
params = sig.parameters.values()
for param in params:

You can also store them in a variable like so:

kinds = [param.kind for param in params]

# [<_ParameterKind.VAR_KEYWORD: 4>]

Other than just keyword arguments, there are 5 parameter kinds in total, which are as follows:

POSITIONAL_ONLY        # parameters must be positional

POSITIONAL_OR_KEYWORD  # parameters can be positional or keyworded (default)

VAR_POSITIONAL         # *args

KEYWORD_ONLY           # parameters must be keyworded 

VAR_KEYWORD            # **kwargs

Descriptions in the official documentation can be found here.



def foo(a, /): 
# the '/' enforces that all preceding parameters must be positional

foo(1) # valid
foo(a=1) #invalid


def foo(a):
# 'a' can be passed via position or keyword
# this is the default and most common parameter kind


def foo(*args):


def foo(*, a):
# the '*' enforces that all following parameters must by keyworded

foo(a=1) # valid
foo(1) # invalid


def foo(**kwargs):

It appears that you want to check whether the function receives an 'id' keyword argument. You can't really do that by inspection because the function might not be a normal function, or you might have a situation like that:

def f(*args, **kwargs):
    return h(*args, **kwargs)

g = lambda *a, **kw: h(*a, **kw)

def h(arg1=0, arg2=2):

f(id=3) still fails

Catching TypeError as suggested is the best way to do that, but you can't really figure out what caused the TypeError. For example, this would still raise a TypeError:

def f(id=None):
     return "%d" % id

f(**{'id': '5'})

And that might be an error that you want to debug. And if you're doing the check to avoid some side effects of the function, they might still be present if you catch it. For example:

class A(object):
   def __init__(self): self._items = set([1,2,3])
   def f(self, id): return self._items.pop() + id

a = A()
a.f(**{'id': '5'})

My suggestion is to try to identify the functions by another mechanism. For example, pass objects with methods instead of functions, and call only the objects that have a specific method. Or add a flag to the object or the function itself.


According to https://docs.python.org/2/reference/datamodel.html you should be able to test for use of **kwargs using co_flags:

>>> def blah(a, b, kwargs):
...     pass

>>> def blah2(a, b, **kwargs):
...     pass

>>> (blah.func_code.co_flags & 0x08) != 0
>>> (blah2.func_code.co_flags & 0x08) != 0

Though, as noted in the reference this may change in the future, so I would definitely advise to be extra careful. Definitely add some unit tests to check this feature is still in place.

  • I see nothing in the reference saying this may change in the future, or even that it's implementation specific. The closest thing to a warning note that I see is: "Other bits in co_flags are reserved for internal use." Jan 19, 2016 at 1:38

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