I want to iterate through the methods in a class, or handle class or instance objects differently based on the methods present. How do I get a list of class methods?

Also see:


25 Answers 25


An example (listing the methods of the optparse.OptionParser class):

>>> from optparse import OptionParser
>>> import inspect
>>> inspect.getmembers(OptionParser, predicate=inspect.ismethod)
[([('__init__', <unbound method OptionParser.__init__>),
 ('add_option', <unbound method OptionParser.add_option>),
 ('add_option_group', <unbound method OptionParser.add_option_group>),
 ('add_options', <unbound method OptionParser.add_options>),
 ('check_values', <unbound method OptionParser.check_values>),
 ('destroy', <unbound method OptionParser.destroy>),
  <unbound method OptionParser.disable_interspersed_args>),
  <unbound method OptionParser.enable_interspersed_args>),
 ('error', <unbound method OptionParser.error>),
 ('exit', <unbound method OptionParser.exit>),
 ('expand_prog_name', <unbound method OptionParser.expand_prog_name>),
# python3
>>> inspect.getmembers(OptionParser, predicate=inspect.isfunction)

Notice that getmembers returns a list of 2-tuples. The first item is the name of the member, the second item is the value.

You can also pass an instance to getmembers:

>>> parser = OptionParser()
>>> inspect.getmembers(parser, predicate=inspect.ismethod)
  • 5
    perfect, the predicate part is key, otherwise you get the same thing as dict with the extra meta info. Thanks.
    – Purrell
    Dec 15, 2009 at 23:48
  • 2
    Will this produce a list of all methods in the class (including ones that are inherited from other classes), or will it only list the methods that are explicitly defined in that class? Mar 10, 2013 at 23:21
  • 17
    inspect.isroutine might be a more appropriate predicate; inspect.ismethod doesn't work for all objects' methods. Jul 14, 2017 at 22:40
  • 4
    on python 3.7 at least this doesn't work, you have to instantiate the class
    – kederrac
    Apr 11, 2020 at 19:06
  • 5
    In Python 3 there is no such thing as an unbound method. In 3.7, this works with the class: inspect.getmembers(OptionsParser, predicate=inspect.isfunction)
    – codeape
    Apr 12, 2020 at 6:45

There is the dir(theobject) method to list all the fields and methods of your object (as a tuple) and the inspect module (as codeape write) to list the fields and methods with their doc (in """).

Because everything (even fields) might be called in Python, I'm not sure there is a built-in function to list only methods. You might want to try if the object you get through dir is callable or not.


Python 3.x answer without external libraries

method_list = [func for func in dir(Foo) if callable(getattr(Foo, func))]

dunder-excluded result:

method_list = [func for func in dir(Foo) if callable(getattr(Foo, func)) and not func.startswith("__")]
  • 2
    Cool, but it does not include getter-setter methods decorated with @property and @property.setter Jul 30, 2022 at 15:15
  • this what worked with objects. Mar 2 at 15:03

Say you want to know all methods associated with list class Just Type The following

 print (dir(list))

Above will give you all methods of list class

  • 6
    print([ m for m in dir(my_class) if not m.startswith('__')])
    – Evhz
    Apr 5, 2019 at 21:19

Try the property __dict__.

  • 21
    I think you mean dict. But that lists the attributes of the instance, not the methods.
    – me_and
    Dec 15, 2009 at 23:45
  • 3
    …that didn't work for me either. Having consulted the Markdown syntax, I think I mean __dict__.
    – me_and
    Dec 15, 2009 at 23:48
  • 4
    @me_and you're probably doing "self.__dict__" or, more generically, calling the instance version of __dict__. However classes have a __dict__ too and that should display the class methods :)
    – Seaux
    Mar 29, 2015 at 18:42

you can also import the FunctionType from types and test it with the class.__dict__:

from types import FunctionType

class Foo:
    def bar(self): pass
    def baz(self): pass

def methods(cls):
    return [x for x, y in cls.__dict__.items() if type(y) == FunctionType]

methods(Foo)  # ['bar', 'baz']
  • This worked well for me. I did add and not x.startswith('_') to the end of the list comprehension for my use to ignore __init__'s and private methods. May 10, 2015 at 22:40
  • 2
    You can get rid of the import of FunctionType by using a throwaway lambda with type(): type(lambda:0) Apr 7, 2016 at 12:06
  • isinstance would be the better than type(y) == FunctionType here.
    – Gloweye
    Oct 25, 2018 at 7:22
  • for callable function you can just replace x in the start to y (use [y for x, y in cls.__dict__.items() if type(y) == FunctionType])
    – matan h
    Jul 15, 2021 at 16:01
  • this doesn't work with objects, only classes, otherwise __dict__.items() won't have any moethods
    – stunlocked
    Dec 8, 2023 at 17:39

You can list all methods in a python class by using the following code


This will return a list of all the names of the methods in the class

  • 3
    This also reports non-method class attributes.
    – chepner
    Jul 29, 2021 at 12:17

Note that you need to consider whether you want methods from base classes which are inherited (but not overridden) included in the result. The dir() and inspect.getmembers() operations do include base class methods, but use of the __dict__ attribute does not.


If your method is a "regular" method and not a staticmethod, classmethod etc.
There is a little hack I came up with -

for k, v in your_class.__dict__.items():
    if "function" in str(v):

This can be extended to other type of methods by changing "function" in the if condition correspondingly.
Tested in Python 2.7 and Python 3.5.

  • 3
    Not sure why this was downvoted... it did actually solve the problem I was having. Feb 25, 2020 at 14:21
  • 4
    if isinstance(v, types.FunctionTypes) would be cleaner. You can also extend this to check for attributes of type classmethod and staticmethod.
    – chepner
    Jul 29, 2021 at 12:16
  • Typo in what chepner recommended. Use if isinstance(v, types.FunctionType)
    – srgsanky
    Feb 14, 2023 at 23:34

Try print(help(ClassName)) It prints out methods of the class

  • Amazing! I learnt something new. Unfortunately this does not list the staticmethods of a class: I wonder if that's even possible. Aug 22, 2021 at 11:16

I just keep this there, because top rated answers are not clear.

This is simple test with not usual class based on Enum.

# -*- coding: utf-8 -*-
import sys, inspect
from enum import Enum

class my_enum(Enum):
    """Enum base class my_enum"""
    M_ONE = -1
    ZERO = 0
    ONE = 1
    TWO = 2
    THREE = 3

    def is_natural(self):
            return (self.value > 0)
    def is_negative(self):
            return (self.value < 0)

def is_clean_name(name):
    return not name.startswith('_') and not name.endswith('_')
def clean_names(lst):
    return [ n for n in lst if is_clean_name(n) ]
def get_items(cls,lst):
            res = [ getattr(cls,n) for n in lst ]
    except Exception as e:
            res = (Exception, type(e), e)
    return res

print( sys.version )

dir_res = clean_names( dir(my_enum) )
inspect_res = clean_names( [ x[0] for x in inspect.getmembers(my_enum) ] )
dict_res = clean_names( my_enum.__dict__.keys() )

print( '## names ##' )
print( dir_res )
print( inspect_res )
print( dict_res )

print( '## items ##' )
print( get_items(my_enum,dir_res) )
print( get_items(my_enum,inspect_res) )
print( get_items(my_enum,dict_res) )

And this is output results.

3.7.7 (default, Mar 10 2020, 13:18:53) 
[GCC 9.2.1 20200306]
## names ##
['M_ONE', 'ONE', 'THREE', 'TWO', 'ZERO']
['M_ONE', 'ONE', 'THREE', 'TWO', 'ZERO', 'name', 'value']
['is_natural', 'is_negative', 'M_ONE', 'ZERO', 'ONE', 'TWO', 'THREE']
## items ##
[<my_enum.M_ONE: -1>, <my_enum.ONE: 1>, <my_enum.THREE: 3>, <my_enum.TWO: 2>, <my_enum.ZERO: 0>]
(<class 'Exception'>, <class 'AttributeError'>, AttributeError('name'))
[<function my_enum.is_natural at 0xb78a1fa4>, <function my_enum.is_negative at 0xb78ae854>, <my_enum.M_ONE: -1>, <my_enum.ZERO: 0>, <my_enum.ONE: 1>, <my_enum.TWO: 2>, <my_enum.THREE: 3>]

So what we have:

  • dir provide not complete data
  • inspect.getmembers provide not complete data and provide internal keys that are not accessible with getattr()
  • __dict__.keys() provide complete and reliable result

Why are votes so erroneous? And where i'm wrong? And where wrong other people which answers have so low votes?


This also works:

In mymodule.py:

def foo(x):
   return 'foo'
def bar():
   return 'bar'

In another file:

import inspect
import mymodule
method_list = [ func[0] for func in inspect.getmembers(mymodule, predicate=inspect.isroutine) if callable(getattr(mymodule, func[0])) ]


['foo', 'bar']

From the Python docs:


Return true if the object is a user-defined or built-in function or method.


There's this approach:

[getattr(obj, m) for m in dir(obj) if not m.startswith('__')]

When dealing with a class instance, perhaps it'd be better to return a list with the method references instead of just names¹. If that's your goal, as well as

  1. Using no import
  2. Excluding private methods (e.g. __init__) from the list

It may be of use. You might also want to assure it's callable(getattr(obj, m)), since dir returns all attributes within obj, not just methods.

In a nutshell, for a class like

class Ghost:
    def boo(self, who):
        return f'Who you gonna call? {who}'

We could check instance retrieval with

>>> g = Ghost()
>>> methods = [getattr(g, m) for m in dir(g) if not m.startswith('__')]
>>> print(methods)
[<bound method Ghost.boo of <__main__.Ghost object at ...>>]

So you can call it right away:

>>> for method in methods:
...     print(method('GHOSTBUSTERS'))
Who you gonna call? GHOSTBUSTERS

¹ An use case:

I used this for unit testing. Had a class where all methods performed variations of the same process - which led to lengthy tests, each only a tweak away from the others. DRY was a far away dream.

Thought I should have a single test for all methods, so I made the above iteration.

Although I realized I should instead refactor the code itself to be DRY-compliant anyway... this may still serve a random nitpicky soul in the future.

def find_defining_class(obj, meth_name):
    for ty in type(obj).mro():
        if meth_name in ty.__dict__:
            return ty


print find_defining_class(car, 'speedometer') 

Think Python page 210

  • 3
    Indentation of 5? Capitalizing keywords? Non-pep8-style spacing?
    – Nebula
    Dec 5, 2015 at 15:57
  • 1
    Not once the coding convention nazis got to it!
    – rbennell
    Jul 27, 2017 at 11:37
  • 1
    How does this answer the question?
    – Aran-Fey
    Apr 11, 2019 at 11:58
methods = [(func, getattr(o, func)) for func in dir(o) if callable(getattr(o, func))]

gives an identical list as

methods = inspect.getmembers(o, predicate=inspect.ismethod)


  • There's a subtle distinction this will overlook (though perhaps not one you would care about, depending on the use case): this will count callable instance attributes as methods. Methods are class attributes.
    – chepner
    Jul 29, 2021 at 12:19

You can use a function which I have created.

def method_finder(classname):

    non_magic_class = []

    class_methods = dir(classname)

    for m in class_methods:

        if m.startswith('__'):




    return non_magic_class




I know this is an old post, but just wrote this function and will leave it here is case someone stumbles looking for an answer:

def classMethods(the_class,class_only=False,instance_only=False,exclude_internal=True):

    def acceptMethod(tup):
        #internal function that analyzes the tuples returned by getmembers tup[1] is the 
        #actual member object
        is_method = inspect.ismethod(tup[1])
        if is_method:
            bound_to = tup[1].im_self
            internal = tup[1].im_func.func_name[:2] == '__' and tup[1].im_func.func_name[-2:] == '__'
            if internal and exclude_internal:
                include = False
                include = (bound_to == the_class and not instance_only) or (bound_to == None and not class_only)
            include = False
        return include
    #uses filter to return results according to internal function and arguments
    return filter(acceptMethod,inspect.getmembers(the_class))
  • This code does not do what it is intended as published. Giving class_only or instance_only will result in empty list.
    – oz123
    Jul 15, 2016 at 13:22

use inspect.ismethod and dir and getattr

 import inspect
 class ClassWithMethods:
    def method1(self):
    def method2(self):


method_names = [attr for attr in dir(obj) if inspect.ismethod(getattr(obj,attr))



[[('method1', <bound method ClassWithMethods.method1 of <__main__.ClassWithMethods object at 0x00000266779AF388>>), ('method2', <bound method ClassWithMethods.method2 of <__main__.ClassWithMethods object at 0x00000266779AF388>>)]]

None of the above worked for me.

I've encountered this problem while writing pytests.

The only work-around I found was to:

1- create another directory and place all my .py files there

2- create a separate directory for my pytests and then importing the classes I'm interested in

This allowed me to get up-to-dated methods within the class - you can change the method names and then use print(dir(class)) to confirm it.


For my use case, I needed to distinguish between class methods, static methods, properties, and instance methods. The inspect module confuses the issue a bit (particularly with class methods and instance methods), so I used vars based on a comment on this SO question. The basic gist is to use vars to get the __dict__ attribute of the class, then filter based on various isinstance checks. For instance methods, I check that it is callable and not a class method. One caveat: this approach of using vars (or __dict__ for that matter) won't work with __slots__. Using Python 3.6.9 (because it's what the Docker image I'm using as my interpreter has):

class MethodAnalyzer:

    class_under_test = None

    def get_static_methods(cls):
        if cls.class_under_test:
            return {
                k for k, v in vars(cls.class_under_test).items()
                if isinstance(v, staticmethod)
        return {}

    def get_class_methods(cls):
        if cls.class_under_test:
            return {
                k for k, v in vars(cls.class_under_test).items()
                if isinstance(v, classmethod)
        return {}

    def get_instance_methods(cls):
        if cls.class_under_test:
            return {
                k for k, v in vars(cls.class_under_test).items()
                if callable(v) and not isinstance(v, classmethod)
        return {}

    def get_properties(cls):
        if cls.class_under_test:
            return {
                k for k, v in vars(cls.class_under_test).items()
                if isinstance(v, property)
        return {}

To see it in action, I created this little test class:

class Foo:

    def bar(baz):

    def bleep(self):
        return 'bloop'

    def bork(cls):
        return cls.__name__

    def flank(self):
        return 'on your six'

then did:

MethodAnalyzer.class_under_test = Foo

which output


In this example I'm discarding the actual methods, but if you needed to keep them you could just use a dict comprehension instead of a set comprehension:

    k, v for k, v in vars(cls.class_under_test).items()
    if callable(v) and not isinstance(v, classmethod)

This is just an observation. "encode" seems to be a method for string objects

str_1 = 'a'
>>> b'a'

However, if str1 is inspected for methods, an empty list is returned

inspect.getmember(str_1, predicate=inspect.ismethod)
>>> []

So, maybe I am wrong, but the issue seems to be not simple.

  • 1
    'a' is an object, whose type is str. You can see this by running type('a'). inspect.getmember() takes a type parameter, so you need to call inspect.getmember(str) to see what you expect.
    – jlhasson
    Feb 19, 2020 at 23:14

To produce a list of methods put the name of the method in a list without the usual parenthesis. Remove the name and attach the parenthesis and that calls the method.

    def methodA():
        print("@ MethodA")

    def methodB():
        print("@ methodB")

    a = []
    for item in a:

Just like this

pprint.pprint([x for x in dir(list) if not x.startswith("_")])
  • 1
    That will also list attributes
    – DavidW
    Apr 10, 2022 at 12:32
class CPerson:
    def __init__(self, age):
        self._age = age

    def run(self):

    def age(self): return self._age

    def my_static_method(): print("Life is short, you need Python")

    def say(cls, msg): return msg

test_class = CPerson
# print(dir(test_class))  # list all the fields and methods of your object
print([(name, t) for name, t in test_class.__dict__.items() if type(t).__name__ == 'function' and not name.startswith('__')])
print([(name, t) for name, t in test_class.__dict__.items() if type(t).__name__ != 'function' and not name.startswith('__')])


[('run', <function CPerson.run at 0x0000000002AD3268>)]
[('age', <property object at 0x0000000002368688>), ('my_static_method', <staticmethod object at 0x0000000002ACBD68>), ('say', <classmethod object at 0x0000000002ACF0B8>)]

If you want to list only methods of a python class

import numpy as np
  • 1
    That's a module, not a class.
    – Aran-Fey
    Apr 11, 2019 at 11:59
  • @Aran-Fey It is applied for every class, all is exist in every class Apr 12, 2019 at 3:49
  • 2
    No, it doesn't. It doesn't even exist in all modules.
    – Aran-Fey
    Apr 12, 2019 at 7:02

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