Here are two discrete objects:

class Field(object):

class MyClass(object):
    firstname = Field()
    lastname = Field()
    email = Field()

For any Field object, is there inherently a way for that object to be aware of the attribute name that MyClass assigned it?

I know I could pass parameters to the Field object, like email = Field(name='email'), but that would be messy and tedious in my actual case so I'm just wondering if there's a non-manual way of doing the same thing.


  • 1
    There sort of is a way, but before I write up the answer, I want to make sure you're not making the mistake of thinking those are instance attributes. Those are supposed to be on the class, not the instance? May 22, 2018 at 22:09
  • 1
    They are supposed to be class-level attributes, yes, not instance attributes. I realize my example lends itself better to the latter case. Apologies if my use of terminology is incorrect, I'm trusting you understand what I'm getting at.
    – Ivan
    May 22, 2018 at 22:13
  • Related: How do I create a variable number of variables? (tl;dr: It's quite likely that you're doing something wrong. Maybe you should store those instances in a dict instead?)
    – Aran-Fey
    May 22, 2018 at 22:18
  • @Aran-Fey I'm not actually looking to create a variable number of variables; the example implies that but it's just an abstraction. 'timmy, jeff and bobby' are the only attributes that will ever exist in this scenario; they could just as easily be "firstname, lastname and email".
    – Ivan
    May 22, 2018 at 22:24
  • @Aran-Fey I disagree. This is standard practice for fields in ORMs, and has use-cases in several other types of frameworks.
    – wim
    May 22, 2018 at 22:24

1 Answer 1


Yes, you can make the Field class a descriptor, and then use __set_name__ method to bind the name. No special handling is needed in MyClass.

object.__set_name__(self, owner, name) Called at the time the owning class owner is created. The descriptor has been assigned to name.

This method is available in Python 3.6+.

>>> class Field:
...     def __set_name__(self, owner, name):
...         print('__set_name__ was called!')
...         print(f'self: {self!r}')  # this is the Field instance (descriptor)
...         print(f'owner: {owner!r}')  # this is the owning class (e.g. MyClass) 
...         print(f'name: {name!r}')  # the name the descriptor was bound to
>>> class MyClass:
...     potato = Field()
__set_name__ was called!
self: <__main__.Field object at 0xcafef00d>
owner: <class '__main__.MyClass'>
name: 'potato'
  • 2
    Oooo this is new. I didn't realize this was added in 3.6 May 22, 2018 at 22:26
  • 1
    Yep. Before PEP 487, people (e.g. Django) were already doing the same thing with metaclasses / introspection hacks.
    – wim
    May 22, 2018 at 22:31
  • +1 Thanks, looks promising and I appreciate the trouble you went to with the example. 3.6 is a bit bleeding edge (I should have specified version) but I'll accept this and upgrade if no universal answers come along.
    – Ivan
    May 22, 2018 at 22:32
  • @Ivan I suggest upgrading to 3.6 for the new dict implementation alone. They maintain insertion order and are significantly more compact, especially for small dicts (which tend to litter Python programs since most user defined objects carry one around d for attributes). May 22, 2018 at 22:49

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