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I just read about descriptors and it felt very unintentional that the behavior of a class can depend on who uses it. The two methods

  • __get__(self, instance, owner)
  • __set__(self, instance, value)

do exactly that. They get in the instance of the class that uses them. What is the reason for this design decision? How is it used?

Update: I think of descriptors as normal types. The class that uses them as a member type can be easily manipulated by side effects of the descriptor. Here is an example of what I mean. Why does Python supprt that?

class Age(object):
    def __init__(value):
        self.value = value
    def __get__(self, instance, owener):
        instance.name = 'You got manipulated'
        return self.value

class Person(object):
    age = Age(42)
    name = 'Peter'

peter = Person()
print(peter.name, 'is', peter.age)
share|improve this question
I think you may have misunderstood what __get__ and __set__'s arguments do. –  user2357112 Jul 25 '14 at 9:08
What do you mean by "the instance of the class that uses them"? Example? –  ecatmur Jul 25 '14 at 9:09
Also, please use the official documentation: docs.python.org/3.4/howto/descriptor.html#descriptor-protocol –  ecatmur Jul 25 '14 at 9:10
@ecatmur Thanks. Could you take a look at the example provided on linked page? It has two descriptors meter and foot as members where one of them accesses the user using instance.meter. That shouldn't be possible from a encapsulation point of view, I think. Is my understanding correct? –  danijar Jul 25 '14 at 9:13

3 Answers 3

up vote 2 down vote accepted

__get__ and __set__ receive no information about who's calling them. The 3 arguments are the descriptor object itself, the object whose attribute is being accessed, and the type of the object.

I think the best way to clear this up is with an example. So, here's one:

class Class:
    def descriptor(self):

foo_instance = Foo()
method_object = foo_instance.descriptor

Functions are descriptors. When you access an object's method, the method object is created by finding the function that implements the method and calling __get__. Here,

method_object = foo_instance.descriptor

calls descriptor.__get__(foo_instance, Foo) to create the method_object. The __get__ method receives no information about who's calling it, only the information needed to perform its task of attribute access.

share|improve this answer
When calling a descriptor, Python passes in just the instance and class. It just so happens that most __get__ implementations are methods, so the self is passed in by the method object. But you can, in principle, use a module with a __get__ function and it still would be used as a descriptor. –  Martijn Pieters Jul 25 '14 at 9:25
@MartijnPieters: Huh? Are you sure that's accurate? Can you provide an example? I'm pretty sure __get__ follows the normal special method rules, with lookup only on the class and all that, so I don't think a module-level __get__ function would do anything. –  user2357112 Jul 25 '14 at 9:28
__get__ and __set__ receive no information about who's calling them. Alright, but they know who's attribute they are. Since descriptors are just types (are they?), they shouldn't know about the class using them as members. You could write a descriptor with side effects that overwrite other attributes of the class unintentionally. –  danijar Jul 25 '14 at 9:31
@danijar: Should methods not know whose method they are? I think you may be seeing the instance and owner arguments as more magical than they are. The descriptor does not pull context out of thin air. When you access an attribute, the attribute access mechanism finds the descriptor and tells it, "Hey, this object of this type needs its attribute computed." –  user2357112 Jul 25 '14 at 9:35
@danijar: Methods aren't special. Other descriptors "live in the class" exactly as much as methods do. In fact, you can define a function outside the class, halfway across your program's architecture, and assign it to Class.method_name, and it'll function seamlessly as the method_name method of the Class class. –  user2357112 Jul 25 '14 at 10:06

Descriptors are used to implement binding behaviour; a descriptor requires a context, the object on which they act.

That object is the instance object passed in.

Note that without a descriptor, attribute access on an object acts directly on the object attributes (the instance __dict__ when setting or deleting, otherwise the class and base classes attributes are searched as well).

A descriptor lets you delegate that access to a separate object entirely, encapsulating getting, setting and deleting. But to be able to do so, that object needs access to the context, the instance. Because getting an attribute also normally searches the class and its bases, the __get__ descriptor method is also passed the class (owner) of the instance.

Take functions, for example. A function is a descriptor too, and binding them to an instance produces a method. A class can have any number of instances, but it makes little sense to store bound methods on all those instances when you create the instance, that would be wasteful.

Instead, functions are bound dynamically; you look up the function name on the instance, the function is found on the class instead, and with a call to __get__ the function is bound to the instance, returning a method object. This method object can then pass in the instance to the function when called, producing the self argument.

share|improve this answer
Isn't a descriptor a class itself? I think you should inherit from a type to change its binding behavior, instead of letting the using class worry about that. –  danijar Jul 25 '14 at 9:15
@danijar: yes, but it is not the instance. It is a reusable object; functions are descriptors too, which is how methods are bound to instances, but the functions can be bound to any instance as required. –  Martijn Pieters Jul 25 '14 at 9:17
So setting instance.name in my example would resolve to peter.age.name instead of peter.name? –  danijar Jul 25 '14 at 9:44
No, it'd be peter.name. This is by design. –  Martijn Pieters Jul 25 '14 at 9:54

An example of the descriptor protocol in action is bound methods. When you access an instance method o.foo you can either call it immediately or save it into a variable: a = o.foo. Now, when you call a(x, y, z) the instance o is passed to foo as the first self parameter:

class C(object):
    def foo(self, x, y, z):
        print(self, x, y, z)
o = C()
a = o.foo
a(1, 2, 3)   # prints <C instance at 0x...> 1 2 3

This works because functions implement the descriptor protocol; when you __get__ a function on an object instance it returns a bound method, with the instance bound to the function.

There would be no way for the above to work without the descriptor protocol giving access to the object instance.

share|improve this answer
Man, everyone went for the same example. Maybe I should've used property. –  user2357112 Jul 25 '14 at 9:24

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