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In python, I can alter the state of an instance by directly assigning to attributes, or by making method calls which alter the state of the attributes:

foo.thing = 'baz'



Is there a nice way to create a class which would accept both of the above forms which scales to large numbers of attributes that behave this way? (Shortly, I'll show an example of an implementation that I don't particularly like.) If you're thinking that this is a stupid API, let me know, but perhaps a more concrete example is in order. Say I have a Document class. Document could have an attribute title. However, title may want to have some state as well (font,fontsize,justification,...), but the average user might be happy enough just setting the title to a string and being done with it ...

One way to accomplish this would be to:

class Title(object):
     def __init__(self,text,font='times',size=12):
         self.text = text
         self.font = font
         self.size = size
     def __call__(self,*text,**kwargs):
             self.text = text[0]
         for k,v in kwargs.items():
     def __str__(self):
         return '<title font={font}, size={size}>{text}</title>'.format(text=self.text,size=self.size,font=self.font)

class Document(object):
     _special_attr = set(['title'])
     def __setattr__(self,k,v):
         if k in self._special_attr and hasattr(self,k):

     def __init__(self,text="",title=""):
         self.title = Title(title)
         self.text = text

     def __str__(self):
         return str(self.title)+'<body>'+self.text+'</body>'

Now I can use this as follows:

doc = Document()
doc.title = "Hello World"
print (str(doc))
doc.title("Goodbye World",font="Helvetica")
print (str(doc))

This implementation seems a little messy though (with __special_attr). Maybe that's because this is a messed up API. I'm not sure. Is there a better way to do this? Or did I leave the beaten path a little too far on this one?

I realize I could use @property for this as well, but that wouldn't scale well at all if I had more than just one attribute which is to behave this way -- I'd need to write a getter and setter for each, yuck.

share|improve this question
Also note that my actual use case does not involve a markup language, I just used this as an example that would be familiar to a larger audience. (please don't suggest I use elementtree or xml.favorite.parser ... ) – mgilson Sep 20 '12 at 3:16
up vote 2 down vote accepted

It is a bit harder than the previous answers assume.

Any value stored in the descriptor will be shared between all instances, so it is not the right place to store per-instance data. Also, obj.attrib(...) is performed in two steps:

tmp = obj.attrib

Python doesn't know in advance that the second step will follow, so you always have to return something that is callable and has a reference to its parent object.

In the following example that reference is implied in the set argument:

class CallableString(str):
    def __new__(class_, set, value):
        inst = str.__new__(class_, value)
        inst._set = set
        return inst
    def __call__(self, value):

class A(object):
    def __init__(self):
        self._attrib = "foo"
    def get_attrib(self):
        return CallableString(self.set_attrib, self._attrib)
    def set_attrib(self, value):
            value = value._value
        except AttributeError:
        self._attrib = value
    attrib = property(get_attrib, set_attrib)

a = A()
print a.attrib
a.attrib = "bar"
print a.attrib
print a.attrib

In short: what you want cannot be done transparently. You'll write better Python code if you don't insist hacking around this limitation

share|improve this answer

You can avoid having to use @property on potentially hundreds of attributes by simply creating a descriptor class that follows the appropriate rules:

# Warning: Untested code ahead
class DocAttribute(object):
    tag_str = "<{tag}{attrs}>{text}</{tag}>"

    def __init__(self, tag_name, default_attrs=None):
        self._tag_name = tag_name
        self._attrs = default_attrs if default_attrs is not None else {}

    def __call__(self, *text, **attrs):
        self._text = "".join(text)
        return self

    def __get__(self, instance, cls):
        return self

    def __set__(self, instance, value):
        self._text = value

    def __str__(self):
        # Attrs left as an exercise for the reader
        return self.tag_str.format(tag=self._tag_name, text=self._text)

Then you can use Document's __setattr__ method to add a descriptor based on this class if it is in a white list of approved names (or not in a black list of forbidden ones, depending on your domain):

class Document(object):
    # prelude
    def __setattr__(self, name, value):
        if self.is_allowed(name):  # Again, left as an exercise for the reader
            object.__setattr__(self, name, DocAttribute(name)(value))
share|improve this answer
I thought that the solution might have something to do with descriptors. sigh. I guess it's time that I really dig in and try to learn how to use them. (It's one of the corners of python I haven't spent much time exploring). – mgilson Sep 20 '12 at 3:21
Just to be clear -- Does a descriptor behave differently from any other class if it isn't bound to an instance? – mgilson Sep 20 '12 at 3:32
@mgilson - it doesn't differ in the slightest. The __get__, __set__ and __delete__ methods are only called when you are attempting to access an attribute on a class or an instance that has these methods (and then only in certain cases). See for more information. – Sean Vieira Sep 20 '12 at 3:45
So an instance of DocAttribute is returned when we do doc.title - if we did title = doc.title we could then invoke the __str__ or __call__ methods of the DocAttribute instance without issue - it is only when title is attached to some other object that the descriptor methods are brought into play. – Sean Vieira Sep 20 '12 at 3:47

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