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I'm wanting to do some introspection on any function/method. For all my examples I'm using Python 2.7, but using 3.3 is not a problem if it makes something easier.

Say I have the following code in a module called foobar.py:

def foo():
    bar()

I can see the code dynamically of foo running:

import inspect
import foobar
inspect.getsource(foobar.foo)

I can also get the disassembled bytecode from the code object of this function with:

import dis
dis.dis(foobar.foo)

Is there a way I can detect that the foo method calls another function (bar in this case) and then disassemble/inspect it dynamically?

I know that the code object itself has all sorts of attributes like the following:

>>> dir(foobar.foo.__code__)
['__class__', '__cmp__', '__delattr__', '__doc__', '__eq__', '__format__', '__ge__', '__getattribute__', '__gt__', '__hash__', '__init__', '__le__', '__lt__', '__ne__', '__new__', '__reduce__', '__reduce_ex__', '__repr__', '__setattr__', '__sizeof__', '__str__', '__subclasshook__', 'co_argcount', 'co_cellvars', 'co_code', 'co_consts', 'co_filename', 'co_firstlineno', 'co_flags', 'co_freevars', 'co_lnotab', 'co_name', 'co_names', 'co_nlocals', 'co_stacksize', 'co_varnames']

I've inspected most of them just looking around, but haven't quite found what I'm looking for.

The end goal is just a little experiment to see if I can recursively print out a would-be call stack without executing the code other than imports. I know the theoretical call stack cannot account for runtime things like the state of particular variables, etc. I would just like to print out the source of all nested functions given a certain call (even if the code would never execute a case based on the runtime state).

Also, I know that the inspect and dis modules can't help once I get into CPython code. Ultimately it might be fun to print out a mapping of some kind that shows what CPython code it reaches when inspect and dis break down. However, I'm not even sure if that is possible.

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2  
I sort of doubt that this is possible since bar cannot be resolved until runtime. What if you had another function: def baz(): global bar; bar = 3 in the same module? Then, if qux is called, bar isn't even a function when you call foo and you'll get an exception –  mgilson Nov 13 '12 at 18:06
    
Ok, I wasn't sure if this was possible anyway. However, don't some static-analyzers like pylint do something like this to see if methods are resolved? I'm just throwing out crazy ideas here. I'm really just seeing if I could ultimately write a script that could print out all possible exceptions that could be raised (in pure Python) by a given function. –  durden2.0 Nov 13 '12 at 18:09
    
You could do this by running the programme, or you could attempt analysis of the programme to check for code which might rebind names, or you could write your own evaluator which assumes no clever tricks, and tries to statically resolve all references. None of these will be a super-easy afternoon hack. –  Marcin Nov 13 '12 at 18:14
    
@durden2.0 -- You might be able to walk through foo.func_code.co_names or something similar and try to find things in the assumed global namespace of foo with the same name that are callable -- rinse and repeat ;) –  mgilson Nov 13 '12 at 18:14
    
@Marcin What do you mean by running the program? For my exceptions example I would have to execute the code and force it to raise every possible exception to see them right? If so, I can't write a program to raise all the exceptions if I'm trying to write a program to find all the exceptions. Maybe I'm confused ;) –  durden2.0 Nov 13 '12 at 18:17

1 Answer 1

All compilers / interpreters build an Abstract Syntax Tree when parsing source. This is a representation of the program based on its context free grammar which can then be recursively walked to generate code that can be executed by the machine.

Python provides access to its AST and you can walk this tree yourself and look for ast.Call objects inside of ast.FunctionDef. A simple example is pasted below. Note though that this will surely not at all capture all possible calls since calls can be embedded in other expressions, hidden by eval expressions, etc. Here's a simple example:

import ast

source = """
def foo():
    bar()

def bar():
    baz()

def baz():
    print "hello!"
"""

def get_method_name_for_call(call_obj):
    for fieldname, value in ast.iter_fields(call_obj):
        if fieldname == "func":
            return value.id

def walk_method_calls(node, cur_func):
    if not node:
        return

    for cur_node in ast.iter_child_nodes(node):
        if type(cur_node) == ast.Call:
            method_called = get_method_name_for_call(cur_node)
            print "Found a call to %s in body of %s." % (method_called, cur_func)
        walk_method_calls(cur_node, cur_func)


def walk_function_defs(node):
    if not node:
        return

    for cur_node in ast.iter_child_nodes(node):
        if type(cur_node) == ast.FunctionDef:
            walk_method_calls(cur_node, cur_node.name)

# we pass <string> as a recognizable identifier since
# we have no filename
ast_root = compile(source, "<string>", "exec", ast.PyCF_ONLY_AST)
walk_function_defs(ast_root)

And an execution example:

$ python abstract_tree.py 
Found a call to bar in body of foo.
Found a call to baz in body of bar.
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