Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Is there a way to make a Python @property act as a setter and getter all at once?

I feel like I've seen this somewhere before but can't remember and can't recreate the solution myself.

For example, instead of:

class A(object):
  def __init__(self, b): self.b = b
  def get_c(self): return self.b.c
  def set_c(self, value): self.b.c = value
  c = property(get_c, set_c)

we could somehow signal that for A objects, the c attribute is really equivalent to b.c for getter, setter (and deleter if we like).


This would be particularly useful when we need A to be a proxy wrapper around B objects (of which b is an instance) but share only the data attributes and no methods. Properties such as these would allow the A and B objects' data to stay completely in sync while both are used by the same code.

share|improve this question
The question here is what's special about your proxy delegation case that makes it different from the typical case where you'd use __getattr__ and friends? If it's just "dynamic delegation to data but not methods", just do the usual dynamic delegation and filter on, e.g., callable. – abarnert Jan 5 '13 at 2:30
Though interesting that still doesn't solve the original concern I had about being able to document to the end-user what it was they could interact with. In the case of the well defined mapping a.c --> a.b.c, a.d --> a.b.d, a.e --> a.b.special_e, etc. it seems using a dict or list is preferable to filtering on callable, but also setattr would have to do a lookup first (to make sure not callable) before setting the value. – bossylobster Jan 5 '13 at 2:36
I'm not sure I understand your last comment. Are you saying it would be better to have an explicit list of attributes to forward, instead of forwarding everything that's not callable? If so, sure, in a lot of cases, that's better. It depends on how dynamic/generic your use case is. If you add a new attribute to b, should it appear in a? If so, use a dynamic filter; if not, use a static whitelist. – abarnert Jan 6 '13 at 11:58

4 Answers 4

up vote 1 down vote accepted

I think you are looking for this forwardTo class as posted on ActiveState.

This recipe lets you transparently forward attribute access to another object in your class. This way, you can expose functionality from some member of your class instance directly, e.g. foo.baz() instead of

class forwardTo(object):
    A descriptor based recipe that makes it possible to write shorthands
    that forward attribute access from one object onto another.

    >>> class C(object):
    ...     def __init__(self):
    ...         class CC(object):
    ...             def xx(self, extra):
    ...                 return 100 + extra
    ...             foo = 42
    ... = CC()
    ...     localcc = forwardTo('cc', 'xx')
    ...     localfoo = forwardTo('cc', 'foo')
    >>> print C().localcc(10)
    >>> print C().localfoo

    Arguments: objectName - name of the attribute containing the second object.
               attrName - name of the attribute in the second object.
    Returns:   An object that will forward any calls as described above.
    def __init__(self, objectName, attrName):
        self.objectName = objectName
        self.attrName = attrName
    def __get__(self, instance, owner=None):
        return getattr(getattr(instance, self.objectName), self.attrName)
    def __set__(self, instance, value):
        setattr(getattr(instance, self.objectName), self.attrName, value)
    def __delete__(self, instance):
        delattr(getattr(instance, self.objectName), self.attrName)

For a more robust code, you may want to consider replacing getattr(instance, self.objectName) with operator.attrgetter(self.objectName)(instance). This would allow objectName to be a dotted name (e.g., so you could have A.c be a proxy for A.x.y.z.d).

share|improve this answer
Thanks for this. Great call on the operator.attrgetter too. My use case is not that broad, so it isn't needed, but it's certainly part of a general solution. – bossylobster Jan 7 '13 at 5:24

There's the decorator syntax for creating properties, then there are full blown custom-defined descriptors, but since the setter/getter pseudo-private pattern is actively discouraged in Python and the Python community, there isn't really a widely distributed or commonly used way to do what you are looking for.

For proxy objects, you can use __getattr__, __setattr__, and __getattribute__, or try to manipulate things earlier in the process by fooling around with __new__ or a metaclass.

share|improve this answer
Per your "actively discouraged" comment, is using the approach of @proppy part of this discouragement? I found that using the __*attr__ approach was hard to document; e.g. as I mention in another comment, I had to implement __dir__ in order to make the object user friendly. – bossylobster Jan 5 '13 at 2:17
I suppose it depends on what you mean by "user friendly". Most dynamic proxies don't implement __dir__—often because the true result would be too large, or too dynamic, or too slow to compute. But really, people don't expect it. – abarnert Jan 5 '13 at 2:22
Well, one thing, if a user needs __dir__ for anything other than hacking around, 99.9% of the time, their code is the problem not yours. If you could tag the attributes you want to proxy somehow, perhaps via a class attribute listing them, a decorator, or a custom descriptor, you could then write a set of generic __*attr__ methods that could just shadow the MRO and inspect all the proxied objects for their tagged attributes. – Silas Ray Jan 5 '13 at 2:27
def make_property(parent, attr):
  def get(self):
    return getattr(getattr(self, parent), attr)
  def set(self, value):
    setattr(getattr(self, parent), attr, value)
  return property(get, set)

class A(object):
  def __init__(self, b): self.b = b
  c = make_property('b', 'c')
share|improve this answer
Presumably he wants to actually define his own getter and setter functions, and then wrap them in a property. If you just want generic automatically-generated getter and setter functions… what's the point in the first place? Just use an attribute. – abarnert Jan 5 '13 at 2:01
I can see value. If instead of the getattr(getattr(...), ...) mess, if you knew specifically that you wanted c, d, e, f and g on A objects to come from b, then something like make_b_property with getattr(self.b, name) and setattr(self.b, name, value) could be somewhat useful and would reduce the amount of code, which is Pythonic :) – bossylobster Jan 5 '13 at 2:04
It didn't seemed to like he wanted to define his own getter/setter functions, since he said: > if we could somehow signal that for A objects, the c attribute is really equivalent to b.c for getter, setter. – proppy Jan 5 '13 at 2:06
@bossylobster: Why? You don't need any of that getattr mess; you can just declare A.c the normal way and access it as A.c. – abarnert Jan 5 '13 at 2:06
I'll update the question with some motivation for this. – bossylobster Jan 5 '13 at 2:07

If you're trying to delegate a whole slew of properties from any A object to its b member, it's probably easier to do that inside __getattr__, __setattr__, and __delattr__, e.g.:

class A(object):
    delegated = ['c', 'd', 'e', 'f']
    def __getattr__(self, attr):
        if attr in A.delegated:
            return getattr(self.b, attr)
        raise AttributeError()

I haven't shown the __setattr__ and __delattr__ definitions here, for brevity, and to avoid having to explain the difference between __getattr__ and __getattribute__. See the docs if you need more information.

This is readily extensible to classes that want to proxy different attributes to different members:

class A(object):
    b_delegated = ['c', 'd', 'e', 'f']
    x_delegated = ['y', 'z']
    def __getattr__(self, attr):
        if attr in A.b_delegated:
            return getattr(self.b, attr)
        elif attr in A.x_delegated:
            return getattr(self.x, attr)
            raise AttributeError()

If you need to delegate all attributes, dynamically, that's almost as easy. You just get a list of self.b's attributes (or self.b.__class__'s) at init time or at call time (which of the four possibilities depends on exactly what you want to do), and use that in place of the static list b_delegated.

You can of course filter this by name (e.g., to remove _private methods), or by type, or any arbitrary predicate (e.g., to remove any callable attributes).

Or combine any of the above.

At any rate, this is the idiomatic way to do (especially dynamic) proxying in Python. It's not perfect, but trying to invent a different mechanism is probably not a good idea.

And in fact, it's not really meant to be perfect. This is something you shouldn't be doing too often, and shouldn't be trying to disguise when you do it. It's obvious that a ctypes.cdll or a pyobjc module is actually delegating to something else, because it's actually useful for the user to know that. If you really need to delegate most of the public interface of one class to another, and don't want the user to know about the delegation… maybe you don't need it. Maybe it's better to just expose the private object directly, or reorganize your object model so the user is interacting with the right things in the first place.

share|improve this answer
RE: Decorating a pair of functions. Check out the updates to @property in Python 2.6, for example, you can decorate a method f with @property and then decorate another method (which must also be called f) with @f.setter to accomplish these things. – bossylobster Jan 5 '13 at 2:12
RE: Using __getattr__. This was my current approach and I was starting to think that carrying around delegated was hard to document (I needed a custom __dir__, for example) and I was looking for alternatives. – bossylobster Jan 5 '13 at 2:13
@bossylobster: Ah, you're right, I forgot about those changes. I played with the new toy when it came out, but never really found a use for it, and forgot about it. Anyway, what is the actual problem with the usual delegation pattern with getattr that you're trying to solve? – abarnert Jan 5 '13 at 2:14
RE: Your code. No setters have been implemented, so the data is in sync in only one direction. __getattr__ isn't called if the attribute is in __dict__ hence if the user set the value, this delegation would be irrelevant after the fact. – bossylobster Jan 5 '13 at 2:14
@bossylobster: I only implemented __getattr__ for brevity, because I assumed you'd be able to figure it out from the sentence talking about the three functions directly above. Do you really need me to implement examples of all three? – abarnert Jan 5 '13 at 2:16

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.