I have a bunch of scripts to perform a task. And I really need to know the call graph of the project because it is very confusing. I am not able to execute the code because it needs extra HW and SW to do so. However, I need to understand the logic behind it. So, I need to know if there is a tool (which do not require any python file execution) that can build a call graph using the modules instead of the trace or python parser. I have such tools for C but not for python.
Thank you.


The best tool I've found is called pyan, and was originally written by Edmund Horner, improved by him, and then given colorization and other features by Juha Jeronen. That version has useful commandline options:

Usage: pyan.py FILENAME... [--dot|--tgf]

Analyse one or more Python source files and generate an approximate call graph
of the modules, classes and functions within them.

  -h, --help           show this help message and exit
  --dot                output in GraphViz dot format
  --tgf                output in Trivial Graph Format
  -v, --verbose        verbose output
  -d, --defines        add edges for 'defines' relationships [default]
  -n, --no-defines     do not add edges for 'defines' relationships
  -u, --uses           add edges for 'uses' relationships [default]
  -N, --no-uses        do not add edges for 'uses' relationships
  -c, --colored        color nodes according to namespace [dot only]
  -g, --grouped        group nodes (create subgraphs) according to namespace
                       [dot only]
  -e, --nested-groups  create nested groups (subgraphs) for nested namespaces
                       (implies -g) [dot only]

Here's the result of running pyan.py --dot -c -e pyan.py | fdp -Tpng:

pyan's output on itself

Edmund Horner's original code is now best found in his github repository, and somebody has also made a repository with both versions, from where you can download Juha Jeronen's version. I've made a clean version combining their contributions into my own repository just for pyan, since both repositories have lots of other software.

  • 1
    @DavidFraser is it compatible with Python 3.x? Dec 7 '16 at 0:16
  • 1
    @AlexanderReshytko Unfortunately not. I've pushed a branch called py3-compat to my github repository which makes the most minimal changes. But this uses the compiler module, which was removed in Python 3. The code would need to be restructured to use ast.NodeVisitor subclasses; this shouldn't be too hard, but I don't have time to do it right now. (It would still be compatible with Python 2.6+) Dec 7 '16 at 12:13
  • 3
    A note to anyone following this ; various users including Technologicat have now contributed Python 3 support Apr 6 '18 at 15:33
  • 2
    This works wonderfully. I'm on windows, and I found it helped to make a bash command that did python "C:\path\to\pyan.py" %1 --uses --defines --colored --grouped --annotated --dot >pyan_output.dot && clip < pyan_output.dot so that I could I could just paste into webgraphviz.com and see the output. Thank you for helping create this and keeping it updated!
    – Pro Q
    Jun 8 '18 at 20:15
  • 3
    As of right now, it seems that the best maintained fork is github.com/Technologicat/pyan, although the related PyPI package pypi.org/project/pyan3 has not been updated in a while. Jun 11 '20 at 11:17

You might want to check out pycallgraph:


Also in this link a more manual approach is described:


  • 3
    Yes, I have seen this pages during my research but I am looking for a "professional" solution. I am afraid such thing does not exist... New start-up idea? Hehe
    – JohnnyDH
    Dec 20 '12 at 0:41
  • Pycallgraph doesn't digest packages well unfortunately
    – chiffa
    Mar 5 '15 at 23:00
  • 7
    pycallgraph is running the code, which is what he asked not to do. pyan does static analysis (see my answer below) Jan 21 '16 at 8:05
  • second link is dead Apr 12 '17 at 19:23
  • 7
    pycallgraph is now unmaintained Mar 11 '18 at 9:29

In short, no such tool exists. Python is far too dynamic of a language to be able to generate a call graph without executing the code.

Here's some code which clearly demonstrates some of the very dynamic features of python:

class my_obj(object):
    def __init__(self, item):
        self.item = item
    def item_to_power(self, power):
        return self.item ** power

def strange_power_call(obj):
    to_call = "item_to_power"
    return getattr(obj, to_call)(4)

a = eval("my" + "_obj" + "(12)")
b = strange_power_call(a)

Note that we're using eval to create an instance of my_obj and also using getattr to call one of its methods. These are both methods that would make it extremely difficult to create a static call graph for python. Additionally, there are all sorts of difficult to analyze ways of importing modules.

I think your best bet is going to be to sit down with the code base and a pad of paper, and start taking notes by hand. This will have the dual benefit of making you more familiar with the code base, and will not be easily tricked by difficult to parse scenarios.

  • 1
    I know. At most, one could search for import, def and func() statements within the modules. I think I will write a program to do exactly that. Of course, it will work only on simple source codes.
    – JohnnyDH
    Dec 20 '12 at 0:45
  • Only extremely simple ones. You'll also need to parse comments, strings, and docstrings, lest you be fooled by those. I've edited my answer to include what I think you should actually do.
    – Wilduck
    Dec 20 '12 at 0:48
  • 2
    Yes, I am doing it manually... There are 14 referenced scripts... Wish me luck :)
    – JohnnyDH
    Dec 20 '12 at 20:37
  • 8
    @Wilduck Static analyzers can be useful without being complete. Any language can obfuscate its call graph. For example, I can use a dictionary in C++ to look up function pointers and call those. Static call graphs are a quick way to get a high-level overview before diving into a new codebase.
    – amwinter
    Jun 10 '14 at 17:57
  • 1
    Questions says that OP has such a tool for C. Gee, how can that be? C has function pointers ...
    – Kaz
    Oct 30 '19 at 20:49

SourceTrail will help you here. https://www.sourcetrail.com/

Sourcetrail is a free and open-source cross-platform source explorer that helps you get productive on unfamiliar source code. Supports C, C++, Java and Python


enter image description here

Here is a link to the documentation


Please note that Python support is relatively new, so please don't expect it to work perfectly yet.


You should check out PyCG, a peer reviewed Python call graph generator that we have created that can handle most of Python's features including higher-order functions, classes, generators and more.


the working version of pyan3 i found is 1.1.1 (pip install pyan3==1.1.1) and its documentation is here


I also write a little tool at: https://github.com/zw-normal/pycallgraph. The concept of code is simple to both understand and use, but it only provides limited information which another IDE is also needed to get better understanding.


I was recently (2021) looking for such a tool, and found code2flow which seems to be actively maintained.

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