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I'm in the process of changing my KML library from python 2 to 3, and I've hit a snag here. Whenever the KML object is created, with k = KML() for example, I get the following error: AttributeError: 'KML' object has no attribute 'doc' with reference to the last line of the given code. I can't tell what's going on here, as I've clearly defined the attribute. Here's the code.

import xml.etree.ElementTree as ET

class KML(ET.Element):
    def __init__(self):
        self.doc = ET.Element("Doc")
        super().append(self.doc)     #error points here

Any help would be greatly appreciated. Thanks!

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Please post the whole error message with the entire stack trace. –  BrenBarn May 24 '13 at 17:49
why are you calling super() twice? did you mean to do self.append(...)? –  shx2 May 24 '13 at 17:51
@BrenBarn You can just run this in the interpreter and it'll kick back an Attribute Error with no real stack trace. In my longer code the k = KML() is called from another file, but I don't think that's relevant. @shx2 I define another append later on in the code, and I want to run ET.Element's append not KML's. –  mwillsey May 24 '13 at 17:55
The problem here is that you're using the C implementation of ElementTree (because in 3.2+ that automatically happens as long as the C implementation can be imported), which doesn't allow you to attach extra attributes this way. If you try the k.doc = 'Doc' anywhere but an __init__ or __new__ method, you'll get an AttributeError on that line. Inside an __init__ or __new__, it will not raise, but will do nothing, so the first attempt to access self.doc will raise. –  abarnert May 24 '13 at 18:11
Anyway, the question is what you're trying to accomplish by attaching members to an Element. There might be a better way to do the same thing at a higher level, or you might need to override __new__, or you might just want to switch to lxml's etree implementation. –  abarnert May 24 '13 at 18:15

1 Answer 1

The root problem here is that xml.etree.ElementTree.Element isn't designed to be subclassed.

I don't think this was intentional, they just didn't expect anyone to subclass it, and didn't think about it either way. In Python 3, almost anything you write in pure Python ends up nicely subclassable, but a C-API class is a different story. And if you look at xml.etree.ElementTree.Element, it's actually _elementtree.Element, which is implemented in C (as a trivial port of cElementTree from 2.x).

Let's take a stripped-down implementation to see the problem:

import xml.etree.ElementTree as ET

class KML(ET.Element):
    def __init__(self, *args):

k = KML()
k.doc = 'Doc'

This will raise an AttributeError as soon as you try to assign to k.doc. Why? Well, that calls __setattr__, which neither you nor ET.Element have implemented, and the default implementation for builtins won't work because you neither you nor ET.Element have set yourself up as a mutable builtin class, so it will raise an AttributeError. Exactly the same as if you tried this with an ET.Element instead of a subclass, or with an int.


class KML(ET.Element):
    def __init__(self, *args):
        self.doc = 'Doc'

k = KML()

Now there's no exception… but it also doesn't set the attribute, as you can see by trying to access self.doc right after setting it, or k.doc right after creating it. That's because the attribute-creation exception gets swallowed when it's inside a __new__ or __init__, which makes the problem harder to debug.

So, what do you do about it?

One possibility is to implement __setattr__ yourself.

This won't be true for all non-subclassing-friendly C-API classes, but in this case, you actually have a proper __dict__ that the default (object) implementation of __setattr__ and friends use, you just don't have that implementation.

You could monkeypatch it in, or try to set up the proper multiple inheritance (but Element is going to have problems with that for similar reasons as your original problem).

But I think it's much simpler to just write it explicitly:

def __setattr__(self, attr, value):
    self.__dict__[attr] = value
def __delattr__(self, attr):
    del self.__dict__[attr]

Another possibility is to force the pure-Python implementation by preventing the C implementation from replacing it. Although this seems like a bad hack, it will work:

import _elementtree
del _elementtree.Element
import xml.etree.ElementTree as ET

Finally, you can use the lxml implementation of the ElementTree API, which has a number of other advantages over the stdlib one. Of course it also has some disadvantages, the chief one being that you need to manually install it (and it depends on the C library libxml2, which you also may need to install).

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