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Earlier today I asked this question about the __del__() method of an object which uses an imported module. The problem was that __del__() wants to make use of the module os, but sometimes (not always) the module has already been deleted. I was told that when a Python program terminates, the order in which objects and modules are deleted can be random, and is undefined. However, for my application, I really need to make sure that an object (instance of a class I created) gets deleted before the module (in which the object is instantiated) gets deleted. Is there a way of doing this?

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2 Answers 2

up vote 5 down vote accepted

As we told you before, you really shouldn't rely on __del__ being called when the interpreter exits. There are two options for doing this properly:

The first is atexit

import os

class Logger(object):   
    def del(self):
        print "os: %s." % os

logger = Logger()
atexit.register(logger.del)

This makes sure that your logger gets finalized at exit.


*Reading a little more into your problem, since you plan on having a single instance bound to a module which defines the instances's class, the context manager solution below won't work for this since there's no way to stay in the context for the entire execution of your program. You'll need to use atexit.register. However, from the standpoint of program design, I would much prefer to use a context manager to manage my resources than atexit.register if restructuring the code would allow it.

The second (better*) way to do it is make your class a context manager which executes the cleanup code when you exit the context. Then your code would look like:

import os
class Logger(object):
    def __enter__(self):
        return self
    def __exit__(self, exc_type, exc_value, traceback):
        print "os:",str(os)

with Logger() as logger:
    #do something ...
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Why is a context manager better than atexit.register() in this case? –  thebjorn Feb 20 '13 at 18:24
1  
@thebjorn -- Because the context manager makes it a lot more natural to work with your class within a function for instance. with atexit.register, you'll keep a reference of your object around long after the object should have been finalized. It also makes it explicit that the object needs to be finalized which is a really big deal as far as code legibility is concerned. –  mgilson Feb 20 '13 at 18:25
    
Ah. Thank you @mgilson, but now I have to figure out what atexit is (never heard of it before), and what the difference between __init__() and __enter__ is, and what the difference between __del__() and __exit__() is. But thank you! –  Ray Feb 20 '13 at 18:28
1  
@Ray -- Reading your comments on the other question helped me to understand your problem better. In this case, I'd recommend using atexit.register rather than a context manager. Context managers are good things to know for code which needs to be finalized however, so I'm going to leave that portion of my answer. –  mgilson Feb 20 '13 at 18:32
    
@mgilson. Ooh one more thing, with the atexit solution (I assume you mean the module atexit), is there a reason you wrote del() instead of __del__()? –  Ray Feb 20 '13 at 18:42

Attach a reference to the function with a keyword parameter:

import os

class Logger(object):    
    def __del__(self, os=os):
        print "os: %s." %os

or bind it to a class attribute:

import os

class Logger(object):
    def __init__(self):
        self.os = os

    def __del__(self):
        print "os: %s." % self.os

By creating a local (enough) reference, Python will not look up os as a global, but with a local reference, which are stored with the instance or with the function itself, respectively.

Globals are looked up at runtime (which is why the __del__ function in your other question fails if os has already been cleaned up), while a function local is cleared up together with the function object, or in case of a instance attribute, with the instance.

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thank you! I'll try that out. –  Ray Feb 20 '13 at 18:26
2  
But this still doesn't guarantee that __del__ will actually be called. –  mgilson Feb 20 '13 at 18:33

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