Suppose I have a Python function as defined below:

def foo(arg1,arg2):
    #do something with args
    a = arg1 + arg2
    return a

I can get the name of the function using foo.func_name. How can I programmatically get its source code, as I typed above?

  • 3
    Note, in Python 3 you can get the function name using foo.__name__
    – MikeyE
    Commented Apr 29, 2018 at 7:35
  • You can get a lot of other things as well.
    – not2qubit
    Commented Oct 21, 2018 at 15:55
  • 3
    Possible duplicate of How do you get Python to write down the code of a function it has in memory?
    – recnac
    Commented Apr 28, 2019 at 1:40
  • This page has become a hot mess. I'd like to see this page evolve into a resource that can be read quickly to get a set of useful answers across different Python interactive environments (e.g. Python vs. IPython), using different libraries (e.g. inspect), clearly explaining the appropriate caveats (e.g. from a file versus interactively defined). One possible solution is a comprehensive yet maximally distilled and well-organized answer. Alternatively or in combination, many of the existing answers could be salvaged if they are clearer on their context.
    – David J.
    Commented Sep 8, 2023 at 16:05

15 Answers 15


If the function is from a source file available on the filesystem, then inspect.getsource(foo) might be of help:

If foo is defined as:

def foo(arg1,arg2):         
    #do something with args 
    a = arg1 + arg2         
    return a  


import inspect
lines = inspect.getsource(foo)


def foo(arg1,arg2):         
    #do something with args 
    a = arg1 + arg2         
    return a                

But I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.

  • 4
    Returns a tuple; tuple[0] is list of strings representing the lines of source code, and tuple[1] is the line number in the context of execution where it was run. In IPython; this is the line number within the cell not the overall notebook Commented Sep 23, 2014 at 5:32
  • 19
    This answer doesn't explicitly mention it, but inspect.getsource(foo) returns the source in a single string instead of a tuple where tuple[0] is a list of the lines. getsource will be more useful if you need to peek in the repl
    – whaley
    Commented Aug 23, 2015 at 13:49
  • it doesn't work with e.g. the function len. Where can I find the source code for the len function? Commented Sep 15, 2016 at 6:06
  • 7
    or inspect.getsourcelines(foo) Commented Oct 17, 2018 at 10:59
  • 4
    @oaklander113 inspect.getsource doesn't work with built-ins like most of the functions from the standard library. You can check the source code for cpython at their website or their Github Commented Sep 23, 2019 at 18:32

The inspect module has methods for retrieving source code from python objects. Seemingly it only works if the source is located in a file though. If you had that I guess you wouldn't need to get the source from the object.

The following tests inspect.getsource(foo) using Python 3.6:

import inspect

def foo(arg1,arg2):
    #do something with args
    a = arg1 + arg2
    return a

source_foo = inspect.getsource(foo)  # foo is normal function

source_max = inspect.getsource(max)  # max is a built-in function

This first prints:

def foo(arg1,arg2):
    #do something with args
    a = arg1 + arg2
    return a

Then fails on inspect.getsource(max) with the following error:

TypeError: <built-in function max> is not a module, class, method, function, traceback, frame, or code object
  • 4
    Yes, it seems to work only for objects defined in a file. Not for those defined in interpreter.
    – sastanin
    Commented Jan 9, 2009 at 9:49
  • 3
    to my surprise, it works in Ipython/Jupyter notebooks also
    – Dr. Goulu
    Commented Jan 22, 2016 at 11:51
  • 2
    I tried using inspect in a python 3.5.3 interpreter. import inspect + inspect.getsource(foo) worked fine. Commented May 7, 2017 at 18:52
  • @AndréChristofferAndersen Yeah but it shouldn't work for functions defined in the interpreter
    – somebody
    Commented Aug 8, 2017 at 1:08
  • +1 but it is useful if answers provide more information that just a link to the documentation. @AndréC.Andersen's comment contains the actual answer.
    – c z
    Commented Dec 2, 2020 at 11:49


Note: this answer only applies to IPython and projects that use it, such as Jupyter.

Just use foo?? or ??foo.

If you are using IPython, then you need to type foo?? or ??foo to see the complete source code. To see only the docstring in the function, use foo? or ?foo. This works in Jupyter notebook as well.

In [19]: foo??
Signature: foo(arg1, arg2)
def foo(arg1,arg2):
    #do something with args
    a = arg1 + arg2
    return a

File:      ~/Desktop/<ipython-input-18-3174e3126506>
Type:      function
  • 27
    Very helpful in IPython and Jupyter notebook if/when you accidentally delete more than one cell that contains functions you've just spent the day creating and testing....
    – AGS
    Commented Jun 28, 2016 at 13:22
  • 6
    To whom, who lost the whole class: you can restore it method by method: dir(MyClass), then MyClass.__init__?? and so on.
    – Valerij
    Commented May 8, 2019 at 12:32
  • @Valerij could youplease elaborate more?
    – Max
    Commented Nov 14, 2021 at 3:25
  • This only applies to IPython and projects that depend on it, such as Jupyter. It does not answer the OP generally.
    – David J.
    Commented Sep 8, 2023 at 15:56

dis is your friend if the source code is not available:

>>> import dis
>>> def foo(arg1,arg2):
...     #do something with args
...     a = arg1 + arg2
...     return a
>>> dis.dis(foo)
  3           0 LOAD_FAST                0 (arg1)
              3 LOAD_FAST                1 (arg2)
              6 BINARY_ADD
              7 STORE_FAST               2 (a)

  4          10 LOAD_FAST                2 (a)
             13 RETURN_VALUE
  • 5
    Throws a TypeError for builtins.
    – Noumenon
    Commented Aug 25, 2015 at 16:47
  • 14
    @Noumenon because they have usually no source code in Python, they are written in C
    – schlamar
    Commented Aug 26, 2015 at 11:57
  • 2
    Imagine seeing LOAD_SLOW or LOAD_SLOW_FOR_NO_REASON instead of all these LOAD_FASTs :) Commented Oct 10, 2022 at 13:28

While I'd generally agree that inspect is a good answer, I'd disagree that you can't get the source code of objects defined in the interpreter. If you use dill.source.getsource from dill, you can get the source of functions and lambdas, even if they are defined interactively. It also can get the code for from bound or unbound class methods and functions defined in curries... however, you might not be able to compile that code without the enclosing object's code.

>>> from dill.source import getsource
>>> def add(x,y):
...   return x+y
>>> squared = lambda x:x**2
>>> print getsource(add)
def add(x,y):
  return x+y

>>> print getsource(squared)
squared = lambda x:x**2

>>> class Foo(object):
...   def bar(self, x):
...     return x*x+x
>>> f = Foo()
>>> print getsource(f.bar)
def bar(self, x):
    return x*x+x

  • 7
    @Ant6n: well, that's just being sneaky. dill.source.getsource inspects the interpreter's history for functions, classes, lambdas, etc -- it doesn't inspect the content of strings passed to exec. Commented Mar 4, 2014 at 3:04
  • This seems very interesting. Is it possible to use dill to answer this question: stackoverflow.com/questions/13827543/… Commented Feb 20, 2015 at 16:34
  • 1
    @ArtOfWarfare: partially, yes. dill.source has functions like getname and importable and getsource that focus on getting the source code (or an importable that yields the object) for any given object. For simple things like an int there is no source, so it doesn't work as expected (i.e. for 'a = 10' it returns '10'). Commented Feb 20, 2015 at 18:08
  • 1
    This does work for globals however: >>> a = 10; print( [key for key, val in globals().items() if val is a][0] ) Commented Feb 20, 2015 at 18:08
  • @MikeMcKerns: I've done my best to answer that question without using dill, but my answer leaves a bit to be desired (IE, if you have multiple names for the same value, it can't figure out which was used. If you pass in an expression, it can't say what that expression was. Heck, if you pass in an expression that evaluates to the same as a name, it'll give that name instead.) Can dill solve any of those shortcomings of my answer here: stackoverflow.com/a/28634996/901641 Commented Feb 20, 2015 at 18:24

To expand on runeh's answer:

>>> def foo(a):
...    x = 2
...    return x + a

>>> import inspect

>>> inspect.getsource(foo)
u'def foo(a):\n    x = 2\n    return x + a\n'

print inspect.getsource(foo)
def foo(a):
   x = 2
   return x + a

EDIT: As pointed out by @0sh this example works using ipython but not plain python. It should be fine in both, however, when importing code from source files.

  • 5
    This won't work, since the interpreter would compile foo to bytecode and throw away the source code, raising an OSError if you try running getsource(foo). Commented Feb 7, 2015 at 18:14
  • @0sh good point as far as the vanilla python interpreter is concerned. However the above code example works when using IPython.
    – TomDotTom
    Commented Jun 26, 2015 at 9:04

Since this post is marked as the duplicate of this other post, I answer here for the "lambda" case, although the OP is not about lambdas.

So, for lambda functions that are not defined in their own lines: in addition to marko.ristin's answer, you may wish to use mini-lambda or use SymPy as suggested in this answer.

  • mini-lambda is lighter and supports any kind of operation, but works only for a single variable
  • SymPy is heavier but much more equipped with mathematical/calculus operations. In particular it can simplify your expressions. It also supports several variables in the same expression.

Here is how you can do it using mini-lambda:

from mini_lambda import x, is_mini_lambda_expr
import inspect

def get_source_code_str(f):
    if is_mini_lambda_expr(f):
        return f.to_string()
        return inspect.getsource(f)

# test it

def foo(arg1, arg2):
    # do something with args
    a = arg1 + arg2
    return a

print(get_source_code_str(x ** 2))

It correctly yields

def foo(arg1, arg2):
    # do something with args
    a = arg1 + arg2
    return a

x ** 2

See mini-lambda documentation for details. I'm the author by the way ;)


You can use inspect module to get full source code for that. You have to use getsource() method for that from the inspect module. For example:

import inspect

def get_my_code():
    x = "abcd"
    return x


You can check it out more options on the below link. retrieve your python code


Please mind that the accepted answers work only if the lambda is given on a separate line. If you pass it in as an argument to a function and would like to retrieve the code of the lambda as object, the problem gets a bit tricky since inspect will give you the whole line.

For example, consider a file test.py:

import inspect

def main():
    x, f = 3, lambda a: a + 1

if __name__ == "__main__":

Executing it gives you (mind the indention!):

    x, f = 3, lambda a: a + 1

To retrieve the source code of the lambda, your best bet, in my opinion, is to re-parse the whole source file (by using f.__code__.co_filename) and match the lambda AST node by the line number and its context.

We had to do precisely that in our design-by-contract library icontract since we had to parse the lambda functions we pass in as arguments to decorators. It is too much code to paste here, so have a look at the implementation of this function.


to summarize :

import inspect
print( "".join(inspect.getsourcelines(foo)[0]))

If you're strictly defining the function yourself and it's a relatively short definition, a solution without dependencies would be to define the function in a string and assign the eval() of the expression to your function.


funcstring = 'lambda x: x> 5'
func = eval(funcstring)

then optionally to attach the original code to the function:

func.source = funcstring
  • 5
    The use of eval() strikes me as being really, REALLY bad, unless you're writing some kind of interactive Python interpreter. Eval opens up drastic security problems. If you adopt a policy of only eval'ing string literals, you still lose out on a variety of helpful behavior, ranging from syntax highlighting to proper reflection of classes which contain eval'ed members. Commented May 23, 2012 at 14:38
  • 2
    Upvoting. @mehaase: security is obviously not an issue here. Your other comments though are quite relevant, though I'd say lack of syntax highlighting is a combination of the fault of the IDE and the fact that python is not a homoiconic language.
    – ninjagecko
    Commented Aug 16, 2012 at 22:59
  • 12
    @ninjagecko Security is always an issue when you're giving advice to the general public. Most readers are coming here because they are googling questions. I don't think many people are going to copy this answer verbatim; instead, they are going to take the concept they learned and apply it to their own problem. Commented Aug 17, 2012 at 19:57
  • @MarkE.Haase you're right that security is always an issue to be mindful of, but there are definitely valid use-cases for eval (or it wouldn't be in the spec). The attrs library uses eval to build customized dunder methods for classes. Not eval-ing user input solves the vast majority of relevant security concerns. Still, not something to trifle with.
    – mtoor
    Commented Sep 1, 2021 at 0:59

Rafał Dowgird's answer states:

I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.

However, it is possible to retrieve the source code of a function compiled from a string, provided that the compiling code also added an entry to the linecache.cache dict:

import linecache
import inspect

script = '''
def add_nums(a, b):
    return a + b

bytecode = compile(script, 'unique_filename', 'exec')
tmp = {}
eval(bytecode, {}, tmp)
add_nums = tmp["add_nums"]

linecache.cache['unique_filename'] = (


# prints:
# """
# def add_nums(a, b):
#    return a + b
# """

This is how the attrs library creates various methods for classes automatically, given a set of attributes that the class expects to be initialized with. See their source code here. As the source explains, this is a feature primarily intended to enable debuggers such as PDB to step through the code.


If all the previous excellent methods fail you are still stuck (!!), you can try to crash your function and use traceback 😂 to get at least some of the code.

In [1]: import traceback
   ...: def foo(arg1,arg2):
   ...:     #do something with args
   ...:     a = arg1 + arg2
   ...:     return a

In [2]: try:
   ...:     foo(None, None)
   ...: except Exception as e:
   ...:     print(repr(e))
   ...:     print(traceback.format_exc())
TypeError("unsupported operand type(s) for +: 'NoneType' and 'NoneType'")
Traceback (most recent call last):
  File "<ipython-input-2-5e7289999181>", line 2, in <module>
    foo(None, None)
  File "<ipython-input-1-db29b8b8f18d>", line 4, in foo
    a = arg1 + arg2
TypeError: unsupported operand type(s) for +: 'NoneType' and 'NoneType'

Might need to get creative and does not work if the func has no parameters.

from dis import show_code
  • 2
    A simple example of a function and a sample output would be helpful, because show_code doesn't actually show the source code of user-defined functions and completely fails for builtin functions. Commented May 21, 2023 at 3:26

I believe that variable names aren't stored in pyc/pyd/pyo files, so you can not retrieve the exact code lines if you don't have source files.