I would like to create a list of all the functions used in a code file. For example if we have following code in a file named 'add_random.py'


import numpy as np
from numpy import linalg

def foo():
    print np.random.rand(4) + np.random.randn(4)
    print linalg.norm(np.random.rand(4))


I would like to extract the following list: [numpy.random.rand, np.random.randn, np.linalg.norm, np.random.rand]

The list contains the functions used in the code with their actual name in the form of 'module.submodule.function'. Is there something built in python language that can help me do this?

  • 5
    This is not as easy as you think it might be. What about callables stored as references in something else? Say you have a dictionary with {'foo': np.random.rand, 'bar': linalg.norm} then use those callables via the keys in the dictionary. Take into account that your code can then rebind those keys too, dynamically swapping out names.. – Martijn Pieters Sep 24 '14 at 10:22
  • 2
    In other words, resolving the full qualified names is not necessarily straightforward nor cut and dry. – Martijn Pieters Sep 24 '14 at 10:22
  • 1
    That said, you can capture all ast.Call nodes and extract the func expression (it'll be a smaller tree of ast nodes, including ast.Name and ast.Attribute). – Martijn Pieters Sep 24 '14 at 10:29
  • @MartijnPieters Do you think it might be good idea to parse the code as a string and extract out particular patterns and then do multiple passes until one gets the full paths to all functions used? – Shishir Pandey Sep 24 '14 at 11:12
  • 1
    You could do this with static analysis, in fact your example didn’t say which functions that actually were used by code path, but ones that are written as in your example. The only real problem is our horrific tooling.... and academic post-modernists, who value cynicism over silence. – TechZilla Sep 24 '15 at 17:05
up vote 4 down vote accepted

You can extract all call expressions with:

import ast

class CallCollector(ast.NodeVisitor):
    def __init__(self):
        self.calls = []
        self.current = None

    def visit_Call(self, node):
        # new call, trace the function expression
        self.current = ''
        self.current = None

    def generic_visit(self, node):
        if self.current is not None:
            print "warning: {} node in function expression not supported".format(
        super(CallCollector, self).generic_visit(node)

    # record the func expression 
    def visit_Name(self, node):
        if self.current is None:
        self.current += node.id

    def visit_Attribute(self, node):
        if self.current is None:
        self.current += '.' + node.attr

Use this with a ast parse tree:

tree = ast.parse(yoursource)
cc = CallCollector()
print cc.calls


>>> tree = ast.parse('''\
... def foo():
...     print np.random.rand(4) + np.random.randn(4)
...     print linalg.norm(np.random.rand(4))
... ''')
>>> cc = CallCollector()
>>> cc.visit(tree)
>>> cc.calls
['np.random.rand', 'np.random.randn', 'linalg.norm']

The above walker only handles names and attributes; if you need more complex expression support, you'll have to extend this.

Note that collecting names like this is not a trivial task. Any indirection would not be handled. You could build a dictionary in your code of functions to call and dynamically swap out function objects, and static analysis like the above won't be able to track it.

  • This works very well for simple function. But, fails when we have composition of functions as in np.random.rand(4).mean(). What should one try to do in such case? Ideally I would like to extract both np.random.rand as well as mean. – Shishir Pandey Oct 13 '14 at 19:57
  • @ShishirPandey: You'll have to 'know' what the return types are of the function calls, and with a package like NumPy that requires that you have gathered that information beforehand; Python C extensions are not introspectable just yet (although Python 3.4 / 3.5 are working hard to remedy that). Rather than re-invent this wheel, perhaps you need to look at packages like CodeIntel, which lets you produce a code auto-completer for Python and other languages (SublimeCodeIntel uses it, among others). – Martijn Pieters Oct 13 '14 at 20:05

In general, this problem is undecidable, consider for example getattribute(random, "random")().

If you want static analysis, the best there is now is jedi

If you accept dynamic solutions, then cover coverage is your best friend. It will show all used functions, rather than only directly referenced though.

Finally you can always roll your own dynamic instrumentation along the lines of:

import random
import logging

class Proxy(object):
    def __getattr__(self, name):
        logging.debug("tried to use random.%s", name)
        return getattribute(_random, name)

_random = random
random = Proxy()

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