I wonder why a class __dict__ is a mappingproxy, but an instance __dict__ is just a plain dict

>>> class A:
...     pass

>>> a = A()
>>> type(a.__dict__)
<class 'dict'>
>>> type(A.__dict__)
<class 'mappingproxy'>

3 Answers 3


This helps the interpreter assure that the keys for class-level attributes and methods can only be strings.

Elsewhere, Python is a "consenting adults language", meaning that dicts for objects are exposed and mutable by the user. However, in the case of class-level attributes and methods for classes, if we can guarantee that the keys are strings, we can simplify and speed-up the common case code for attribute and method lookup at the class-level. In particular, the __mro__ search logic for new-style classes is simplified and sped-up by assuming the class dict keys are strings.

  • 45
    And for the curious: mappingproxy makes class.__dict__ read-only, so that only class.__setattr__ remains as an avenue for setting class attributes, and it is that method that enforces the restriction.
    – Martijn Pieters
    Sep 22, 2015 at 15:37
  • 2
    This is also relevant for anyone overriding type.__setattr__ (which is hopefully/probably a pretty small set), since you can't write to __dict__; you have to use super().
    – Kevin
    Sep 23, 2015 at 0:58
  • 8
    It also makes sure that if you give a class a new magic method, Python can update the relevant C-level slot. If you bypass this by using something like gc.get_referents(FooClass.__dict__)[0]['__eq__'] = eqmethod, instances of FooClass might not actually use eqmethod for == comparisons. Dec 11, 2015 at 23:54
  • 1
    I guess anyone wanting to serialise a derived class into Json is just unlucky then :/
    – Basic
    Jul 7, 2016 at 9:59
  • @MartijnPieters To clarify, this read-only nature is the reason why class attributes can only be re-assigned via access through the class itself? And why an attempt to re-assign a class attribute via access through an instance results in a new instance attribute of the same name as the class attribute? Mar 26, 2020 at 19:07

A mappingproxy is simply a dict with no __setattr__ method.

You can check out and refer to this code.

from types import MappingProxyType
d={'key': "value"}
m = MappingProxyType(d)
print(type(m)) # <class 'mappingproxy'>

m['key']='new' #TypeError: 'mappingproxy' object does not support item assignment

mappingproxy is since Python 3.3. The following code shows dict types:

class C:pass
print(type(C.__dict__)) #<class 'mappingproxy'>
print(type(ci.__dict__)) #<class 'dict'>

Since Python 3.3 mappingproxy type was renamed from dictproxy. There was an interesting discussion on this topic.

It's a little bit hard to find the documentation for this type, but the documentation for vars method describes this perfectly (though it wasn't documented for a while):

Objects such as modules and instances have an updateable __dict__ attribute; however, other objects may have write restrictions on their __dict__ attributes (for example, classes use a types.MappingProxyType to prevent direct dictionary updates).

If you need to assign a new class attribute you could use setattr. It worth to note that mappingproxy is not JSON serializable, check out the issue to understand why.

Also the history of this type is a quite interesting:

  • Python 2.7: type(A.__dict__) returns <type 'dict'> as type(dict()), and it's possible to assign new attributes through __dict__, e.g. A.__dict__['foo'] = 'bar'.
  • Python 3.0 - 3.2: type(A.__dict__) returns <class 'dict_proxy'>, the difference is introduced. Trying to assign a new attribte gives TypeError. There was an attempt to add dictproxy as a public built-in type.
  • Python 3.3: adds the <class 'mappingproxy'> type described above.

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