I was testing the idea of using @property in OOP:

class Person(object):
    def name(self):
        return self.name

    def name(self, newname):
        self.name = newname

james = Person()
james.name = 'James Bond'
>>> RecursionError: maximum recursion depth exceeded

Somehow this gives me an Error for recursion??

but if I change self.name to self._name, it seems to solve the problem. So I guess I can not set a self.name while I am using name() as a @property?

  • 2
    The whole point of the descriptor protocol is that obj.x calls x.__get__. – juanpa.arrivillaga Jan 27 '18 at 2:03

The reason for the error is that you are attempting to return an attribute with exactly the same name as the method being decorated by property. Thus, when you call the method name, the call triggers the method again, because self.name is the method declared in the class. This triggers the non-terminating recursion. Instead, change the attribute name:

class Person(object):
   def name(self):
     return self._name

   def name(self, newname):
      self._name = newname
  • So the way I found, which is to add '_', is a proper way to do this? – Code_Control_jxie0755 Jan 27 '18 at 2:02
  • @Code_Control_jxie0755 in this case, all you need to do is change the variable name. Generally, _variablename is used in most demonstrations of property. – Ajax1234 Jan 27 '18 at 2:03
  • great, thank you! – Code_Control_jxie0755 Jan 27 '18 at 2:06
  • 1
    Another way is to use self.__dict__['name'], which is a little more arcane but a very cool way to hide property values. – Mad Physicist Jan 27 '18 at 2:14

Also, you can create the internal proxy object if you think that _ notation is ugly (example for python 3.3+):

import types

class Person(object):
   def __init__(self):
       self.me = types.SimpleNamespace(name = "")

   def name(self):
     return self.me.name

   def name(self, newname):
      self.me.name = newname
  • You don't really eliminate what to me is the main ugliness of _, which is that you create another attribute for the user to modify. – Mad Physicist Jan 27 '18 at 2:41
  • Maybe little magic with class decorator will protect the variable against overriding: stackoverflow.com/a/39716001/4265407 but not from field access and manipulation. I think we need something like inspect to do it. – Stanislav Ivanov Jan 27 '18 at 2:54
  • As I suggested for the other answer, self.__dict__['name'] goes a long way to hiding the attribute by harnessing the precedence of data attributes on the class over instance dict entries. – Mad Physicist Jan 27 '18 at 3:03
  • But if I wrote s.__dict__['name'] = "foo" I can write s.name = "bar" after. Given the fact that many critical variables usually defined/assigned in the class constructor... – Stanislav Ivanov Jan 27 '18 at 3:21

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