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'>
up vote 50 down vote accepted

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.

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    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 '15 at 15:37
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    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 '15 at 0:58
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    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. – user2357112 Dec 11 '15 at 23:54
  • I guess anyone wanting to serialise a derived class into Json is just unlucky then :/ – Basic Jul 7 '16 at 9:59

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