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While trying to track down a resource leak in a Python program this evening, it occurred to me that modern ORMs make the job quite difficult. An object which is, in fact, sitting alone in memory with no children will suddenly appear to have a dozen associated objects as you start checking its attributes because, of course, each attribute dereference invokes a descriptor that pulls in additional information on-the-fly.

I even noticed that doing a simple print of one particular object wound up doing a database query and pulling more linked objects into memory — ruining the careful reference counts that I had been computing — because its __repr__() built the displayed name out of a few associated objects.

There are, it happens, a few techniques that allow objects to be inspected without affecting them — operations like type(obj) and id(obj) and obj.__dict__. (But not printing the __dict__, since that invokes __repr__() on every single value in the dictionary!) Has anyone ever combined these few “safe” inspection methods to support, at a prompt like the Python debugger, convenient inspection and exploration of a Python object graph so that I can see where these files are being held open, running me out of file descriptors?

I need, essentially, an anti-Heisenberg tool, that prevents my acts of inspection from having any side effects!

The “inspect” module:

One answer suggests that I try the inspect() module, but it looks like it dereferences every attribute on the object you supply:

import inspect
class Thing(object):
    @property
    def one(self):
        print 'one() got called!'
        return 1
t = Thing()
inspect.getmembers(t)

This outputs:

one() got called!
[('__class__', <class '__main__.Thing'>),
 ('__delattr__', <method-wrapper '__delattr__'…),
 …
 ('one', 1)]
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Perhaps you might show an example of what output you would actually like to see? –  dkamins May 12 '11 at 5:32
    
could you find an acceptable solution for this problem? –  elyase Oct 27 '13 at 17:08

2 Answers 2

Python 3.2 now provides inspect.getattr_static() for precisely this kind of use case: http://docs.python.org/py3k/library/inspect#fetching-attributes-statically

The source code link from the top of the docs page should make it fairly easy to backport that functionality to earlier versions (although keep in mind that as 3.x stdlib code, it isn't built to handle old-style classes).

I'm not aware of any existing tools that combine that kind of technique with inspection of obj.__dict__ to navigate a whole object graph without invoking descriptors, though.

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This code actually does a few things that are not necessary in my case: it inspects descriptors so that it can report the names of attributes that are generated as properties. But in my case — wanting to know what objects are keeping which other objects are in existence — I actually want virtual attributes like properties to disappear, because, by definition, they can't affect any reference counts unless you invoke them. I just want to know which associated objects actually have elevated reference counts — which, I think, will drive towards manual inspection of __dict__. –  Brandon Rhodes May 12 '11 at 16:21

I have no clue how safe the various methods are (it seems fairly dependent on your particular situation) but the inspect module provides a tremendous number of inspection tools.

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An interesting idea! But the main function supported by inspect, the getmembers() call, seems to invoke every descriptor on a given object — take a look at the example that I have appended to my question. –  Brandon Rhodes May 12 '11 at 4:37
    
@BrandonCraigRhodes Yep, I couldn't find any way around that in 2.x, at least things look up in Python 3.x. You mention wanting to be able to "see where these files are being held open, running me out of file descriptors?". You are familiar with lsof right? You could do lsof | grep python to see which files it's holding open. If you have some control over their names, you could use that to give yourself some indication of what's holding them open... –  zeekay May 12 '11 at 6:04

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