10

Simple repro:

class VocalDescriptor(object):
    def __get__(self, obj, objtype):
        print('__get__, obj={}, objtype={}'.format(obj, objtype))
    def __set__(self, obj, val):
        print('__set__')

class B(object):
    v = VocalDescriptor()

B.v # prints "__get__, obj=None, objtype=<class '__main__.B'>"
B.v = 3 # does not print "__set__", evidently does not trigger descriptor
B.v # does not print anything, we overwrote the descriptor

This question has an effective duplicate, but the duplicate was not answered, and I dug a bit more into the CPython source as a learning exercise. Warning: i went into the weeds. I'm really hoping I can get help from a captain who knows those waters. I tried to be as explicit as possible in tracing the calls I was looking at, for my own future benefit and the benefit of future readers.

I've seen a lot of ink spilled over the behavior of __getattribute__ applied to descriptors, e.g. lookup precedence. The Python snippet in "Invoking Descriptors" just below For classes, the machinery is in type.__getattribute__()... roughly agrees in my mind with what I believe is the corresponding CPython source in type_getattro, which I tracked down by looking at "tp_slots" then where tp_getattro is populated. And the fact that B.v initially prints __get__, obj=None, objtype=<class '__main__.B'> makes sense to me.

What I don't understand is, why does the assignment B.v = 3 blindly overwrite the descriptor, rather than triggering v.__set__? I tried to trace the CPython call, starting once more from "tp_slots", then looking at where tp_setattro is populated, then looking at type_setattro. type_setattro appears to be a thin wrapper around _PyObject_GenericSetAttrWithDict. And there's the crux of my confusion: _PyObject_GenericSetAttrWithDict appears to have logic that gives precedence to a descriptor's __set__ method!! With this in mind, I can't figure out why B.v = 3 blindly overwrites v rather than triggering v.__set__.

Disclaimer 1: I did not rebuild Python from source with printfs, so I'm not completely sure type_setattro is what's being called during B.v = 3.

Disclaimer 2: VocalDescriptor is not intended to exemplify "typical" or "recommended" descriptor definition. It's a verbose no-op to tell me when the methods are being called.

  • 1
    For me this prints 3 at the last line... The code works fine – Jab Oct 16 at 19:14
  • 3
    Descriptors apply when accessing attributes from an instance, not the class itself. To me, the mystery is why __get__ worked at all, rather than why __set__ didn't. – jasonharper Oct 16 at 19:18
  • 1
    @Jab OP is expecting to still invoke the __get__ method. B.v = 3 has effectively overwritten the attribute with an int. – r.ook Oct 16 at 19:21
  • 2
    @jasonharper Attribute access determines whether __get__ is called, and the default implementations of object.__getattribute__ and type.__getattribute__ invoke __get__ when using an instance or the class. Assigning via __set__ is instance-only. – chepner Oct 16 at 19:32
  • @jasonharper I believe descriptors' __get__ methods are supposed to trigger when invoked from the class itself. This is how @classmethods and @staticmethods are implemented, according to the how-to guide. @Jab I'm wondering why B.v = 3 is able to overwrite the class descriptor. Based on the CPython implementation, I expected B.v = 3 to also trigger __set__. – Michael Carilli Oct 16 at 19:33
6

You are correct that B.v = 3 simply overwrites the descriptor with an integer (as it should).

For B.v = 3 to invoke a descriptor, the descriptor should have been defined on the metaclass, i.e. on type(B).

>>> class BMeta(type): 
...     v = VocalDescriptor() 
... 
>>> class B(metaclass=BMeta): 
...     pass 
... 
>>> B.v = 3 
__set__

To invoke the descriptor on B, you would use an instance: B().v = 3 will do it.

The reason for B.v invoking the getter is to allow returning the descriptor instance itself. Usually you would do that, to allow access on the descriptor via the class object:

class VocalDescriptor(object):
    def __get__(self, obj, objtype):
        if obj is None:
            return self
        print('__get__, obj={}, objtype={}'.format(obj, objtype))
    def __set__(self, obj, val):
        print('__set__')

Now B.v would return some instance like <mymodule.VocalDescriptor object at 0xdeadbeef> which you can interact with. It is literally the descriptor object, defined as a class attribute, and its state B.v.__dict__ is shared between all instances of B.

Of course it is up to user's code to define exactly what they want B.v to do, returning self is just the common pattern.

  • 1
    To make this answer complete I would add that __get__ is designed to be called as instance attribute or class attribute, but __set__ is designed to be called only as instance attribute. And relevant docs: docs.python.org/3/reference/datamodel.html#object.__get__ – sanyash Oct 16 at 19:33
  • @wim Magnificent!! In parallel I was looking once more at the type_setattro call chain. I see that the call to _PyObject_GenericSetAttrWithDict supplies the type (at that point B, in my case). – Michael Carilli Oct 16 at 19:51
  • Within _PyObject_GenericSetAttrWithDict, it pulls the Py_TYPE of B as tp, which is B's metaclass (type in my case), then it's the metaclass tp that is treated by the descriptor short-circuiting logic. So the descriptor defined directly on B is not seen by that short-circuiting logic (therefore in my original code __set__ is not called), but a descriptor defined on the metaclass is seen by the short-circuiting logic. – Michael Carilli Oct 16 at 19:51
  • Therefore, in your case where the metaclass has a descriptor, the __set__ method of that descriptor is called. – Michael Carilli Oct 16 at 19:52
  • @sanyash feel free to edit directly. – wim Oct 16 at 20:58
3

Barring any overrides, B.v is equivalent to type.__getattribute__(B, "v"), while b = B(); b.v is equivalent to object.__getattribute__(b, "v"). Both definitions invoke the __get__ method of the result if defined.

Note, thought, that the call to __get__ differs in each case. B.v passes None as the first argument, while B().v passes the instance itself. In both cases B is passed as the second argument.

B.v = 3, on the other hand, is equivalent to type.__setattr__(B, "v", 3), which does not invoke __set__.

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