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I would like to have a class with an attribute attr that, when accessed for the first time, runs a function and returns a value, and then becomes this value (its type changes, etc.).

A similar behavior can be obtained with:

class MyClass(object):
    @property
    def attr(self):
        try:
            return self._cached_result
        except AttributeError:
            result = ...
            self._cached_result = result
            return result

obj = MyClass()
print obj.attr  # First calculation
print obj.attr  # Cached result is used

However, .attr does not become the initial result, when doing this. It would be more efficient if it did.

A difficulty is that after obj.attr is set to a property, it cannot be set easily to something else, because infinite loops appear naturally. Thus, in the code above, the obj.attr property has no setter so it cannot be directly modified. If a setter is defined, then replacing obj.attr in this setter creates an infinite loop (the setter is accessed from within the setter). I also thought of first deleting the setter so as to be able to do a regular self.attr = …, with del self.attr, but this calls the property deleter (if any), which recreates the infinite loop problem (modifications of self.attr anywhere generally tend to go through the property rules).

So, is there a way to bypass the property mechanism and replace the bound property obj.attr by anything, from within MyClass.attr.__getter__?

0
3

This looks a bit like premature optimization : you want to skip a method call by making a descriptor change itself.

It's perfectly possible, but it would have to be justified.

To modify the descriptor from your property, you'd have to be editing your class, which is probably not what you want.

I think a better way to implement this would be to :

  • do not define obj.attr
  • override __getattr__, if argument is "attr", obj.attr = new_value, otherwise raise AttributeError

As soon as obj.attr is set, __getattr__ will not be called any more, as it is only called when the attribute does not exist. (__getattribute__ is the one that would get called all the time.)

The main difference with your initial proposal is that the first attribute access is slower, because of the method call overhead of __getattr__, but then it will be as fact as a regular __dict__ lookup.

Example :

class MyClass(object):

    def __getattr__(self, name):
        if name == 'attr':
            self.attr = ...
            return self.attr
        raise AttributeError(name)

obj = MyClass()
print obj.attr  # First calculation
print obj.attr  # Cached result is used

EDIT : Please see the other answer, especially if you use Python 3.6 or more.

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  • 1
    I was just writing the same thing, I will upvote yours instead, this works perfectly fine ! – Saksow Aug 1 '16 at 11:29
  • Thanks. I am not sure I understand the part "to modify the descriptor from your property, you'd have to be editing your class": in fact, what is needed is not an update of the class itself (that would break the calculation of attr for new instances), but an update of the attr attribute of an instance. Right? – Eric O Lebigot Aug 1 '16 at 15:41
  • No, because as long as attr is both defined on the class AND a data descriptor, it will be used instead. Python attribute lookup order can be a bit tricky, here is some more reading on the subject. – pistache Aug 2 '16 at 22:53
1

For new-style classes, which utilize the descriptor protocol, you could do this by creating your own custom descriptor class whose __get__() method will be called at most one time. When that happens, the result is then cached by creating an instance attribute with the same name the class method has.

Here's what I mean.

from __future__ import print_function

class cached_property(object):
    """Descriptor class for making class methods lazily-evaluated and caches the result."""
    def __init__(self, func):
        self.func = func

    def __get__(self, inst, cls):
        if inst is None:
            return self
        else:
            value = self.func(inst)
            setattr(inst, self.func.__name__, value)
            return value

class MyClass(object):
    @cached_property
    def attr(self):
        print('doing long calculation...', end='')
        result = 42
        return result

obj = MyClass()
print(obj.attr)  # -> doing long calculation...42
print(obj.attr)  # -> 42
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  • Does this not do pretty much exactly what you wanted? Properties are just descriptor instances. – martineau Jan 28 '17 at 1:57
  • This also does exactly what OP wanted, but would be nicer in Python 3.6 where it can use __set_name__ instead of using __name__ which might do unexpected things in the presence of other decorators. – pistache Jul 6 '17 at 2:43
  • This is also a better fix to OP's problem : he tried "deleting" the setter, while it just had to not be defined at first, using a descriptor instead of property. I believe this should be the accepted answer. – pistache Jul 6 '17 at 2:45

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