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For specific debugging purposes I'd like to wrap the del function of an arbitrary object to perform extra tasks like write the last value of the object to a file.

Ideally I want to write monkey(x) and it should mean that the final value of x is printed when x is deleted

Now I figured that del is a class method. So the following is a start:

class Test:
    def __str__(self):
        return "Test"

def p(self):

def monkey(x):

del a

However if I want to monkey specific objects only I suppose I need to dynamically rewrite their class to a new one?! Moreover I need to do this anyway, since I cannot access del of built-in types?

Anyone knows how to implement that?

share|improve this question
up vote 5 down vote accepted

While special 'double underscore' methods like __del__, __str__, __repr__, etc. can be monkey-patched on the instance level, they'll just be ignored, unless they are called directly (e.g., if you take Omnifarious's answer: del a won't print a thing, but a.__del__() would).

If you still want to monkey patch a single instance a of class A at runtime, the solution is to dynamically create a class A1 which is derived from A, and then change a's class to the newly-created A1. Yes, this is possible, and a will behave as if nothing has changed - except that now it includes your monkey patched method.

Here's a solution based on a generic function I wrote for another question: Python method resolution mystery

def override(p, methods):
    oldType = type(p)
    newType = type(oldType.__name__ + "_Override", (oldType,), methods)
    p.__class__ = newType

class Test(object):
    def __str__(self):
        return "Test"

def p(self):

def monkey(x):
    override(x, {"__del__": p})

print "Deleting a:"
del a
print "Deleting b:"
del b
share|improve this answer
Two problems with this approach: First, it won't work with heap types like int or list, because you cannot re-assign their __class__. Second, type checking will lead to different results depending on wether an object was monkey()'ed or not. That might lead to very confusing errors. – pillmuncher May 15 '11 at 20:25
You can assign to class? Wow, that's just ... wow. – drxzcl May 15 '11 at 20:27
In my comment above there's a typo: it should read 'non-heap types'. – pillmuncher May 15 '11 at 20:45
The new class is derived from the old class - so yeah, it already has the same superclasses. As long as you check the classes with isinstance(x, C) and not with type(x) == C (which you shouldn't ever do as a rule), everything will be ok. – Boaz Yaniv May 16 '11 at 1:19
@naxa: Then just override the method on the class directly, as the example given in the question. You don't need to do anything special if you want to override on the class level: it just works! – Boaz Yaniv Apr 30 '14 at 13:21

You can also inherit from some base class and override the __del__ method (then only thing you would need would be to override class when constructing an object). Or you can use super built-in method.

share|improve this answer
This trick is for some adhoc debugging so I'd rather not define real base classes. Also I'd need to remember call super from any derived class with a del function. And finally this wouldn't work for built-ins. I hope there is a way to also monkey a normal list?! – Gerenuk May 15 '11 at 18:48… - second answer here is a great explanation – Dr McKay May 15 '11 at 18:59

You can monkey patch an individual object. self will not get passed to functions that you monkey patch in this way, but that's easily remedied with functools.partial.


def monkey_class(x):
    x.__class__.__del__ = p

def monkey_object(x):
    x.__del__ = functools.partial(p, x)
share|improve this answer
Have you tried that? Not sure if I did some mistake, but apparently x.__del__ is ineffective. Probably because del is strictly a class method?! Somehow I cannot get it work :( And I get the feeling that the .partial keeps a reference to x so that it isn't garbage collected?! – Gerenuk May 15 '11 at 19:13
It doesn't work since special methods are only called with the class dict. This solution would work only for 'regular' methods. – Boaz Yaniv May 15 '11 at 20:02
@Boaz Yaniv: Oops, you learn something new every day. I'm leaving this answer here as a warning to others. :-) – Omnifarious May 15 '11 at 21:16

del a deletes the name 'a' from the namespace, but not the object referenced by that name. See this:

>>> x = 7
>>> y = x
>>> del x
>>> print y

Also, some_object.__del__ is not guaranteed to be called at all.

Also, I already answered your question here (in german).

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