__setattribute__ does not exist because
__setattr__ is always called.
__getattr__ is only called for
f.x if the attribute lookup fails via the normal channel (which is provided by
__getattribute__, so that function is similarly always called).
The descriptor protocol is slightly orthogonal to the others. Given
self.x = 5
f = Foo()
The following are true:
f.x would invoke
f.__getattribute__('x') if it were defined.
f.x would not invoke
f.__getattr__('x') if it were defined.
f.y would invoke
f.__getattr__('y') if it were defined, or else
f.__getattribute__('y') if it were defined.
The descriptor is invoked by an attribute, rather than for an attribute. That is:
x = MyDescriptor()
f = Foo()
f.x would cause
type(f).__dict__['x'].__get__ to be called, and
f.x = 3 would call
Foo.__getattribute__ would be used to find what
f.x references; once you have that,
f.x produces the result of
type(f.x).__get__() if defined, and
f.x = y invokes
f.x.__set__(y) if defined.
(The above calls to
__set__ are only approximately correct, since I've left out the details of what arguments
__set__ actually receive, but this should be enough to explain the difference between
Put yet another way, if
MyDescriptor did not define
f.x would simply return the instance of