I am using Python 3.6 and the dataclasses backport package from ericvsmith.

It seems that calling dataclasses.asdict(my_dataclass) is ~10x slower than calling my_dataclass.__dict__:

In [172]: @dataclass
     ...: class MyDataClass:
     ...:     a: int
     ...:     b: int
     ...:     c: str

In [173]: %%time
     ...: _ = [MyDataClass(1, 2, "A" * 1000).__dict__ for _ in range(1_000_000)]
CPU times: user 631 ms, sys: 249 ms, total: 880 ms
Wall time: 880 ms

In [175]: %%time
     ...: _ = [dataclasses.asdict(MyDataClass(1, 2, "A" * 1000)) for _ in range(1_000_000)]
CPU times: user 11.3 s, sys: 328 ms, total: 11.6 s
Wall time: 11.7 s

Is this expected behavior? In what cases should I have to use dataclasses.asdict(obj) instead of obj.__dict__?

Edit: Using __dict__.copy() does not make a big difference:

In [176]: %%time
     ...: _ = [MyDataClass(1, 2, "A" * 1000).__dict__.copy() for _ in range(1_000_000)]
CPU times: user 922 ms, sys: 48 ms, total: 970 ms
Wall time: 970 ms
  • 2
    Well, for starters, asdict will create and return new dict object, and recursive and convert any other data-class instances into dicts, whereas __dict__ simply returns a reference to the namespace of the object, something you probably don't want to mutate, for example... Sep 7, 2018 at 21:01

1 Answer 1


In most cases where you would have used __dict__ without dataclasses, you should probably keep using __dict__, maybe with a copy call. asdict does a lot of extra work that you may not actually want. Here's what it does.

First, from the docs:

Each dataclass is converted to a dict of its fields, as name: value pairs. dataclasses, dicts, lists, and tuples are recursed into. For example:

class Point:
     x: int
     y: int

class C:
     mylist: List[Point]

p = Point(10, 20)
assert asdict(p) == {'x': 10, 'y': 20}

c = C([Point(0, 0), Point(10, 4)])
assert asdict(c) == {'mylist': [{'x': 0, 'y': 0}, {'x': 10, 'y': 4}]}

So if you want recursive dataclass dictification, use asdict. If you don't want it, then all the overhead that goes into providing it is wasted. Particularly, if you use asdict, then changing the implementation of contained objects to use dataclass will change the result of asdict on outer objects.

Aside from that, asdict builds a new dict, while __dict__ simply accesses the object's attribute dict directly. The return value of asdict will not be affected by reassignment of the original object's fields. Also, asdict uses fields, so if you add attributes to a dataclass instance that don't correspond to declared fields, asdict won't include them.

Finally, the docs don't mention it at all, but asdict will call deepcopy on everything that isn't a dataclass object, dict, list, or tuple:

    return copy.deepcopy(obj)

(Dataclass objects, dicts, lists, and tuples go through the recursive logic, which also builds a copy, just with recursive dictification applied.)

deepcopy is really expensive on its own, and the lack of any memo handling means that asdict is likely to create multiple copies of shared objects in nontrivial object graphs. Watch out for that:

>>> from dataclasses import dataclass, asdict
>>> @dataclass
... class Foo:
...     x: object
...     y: object
>>> a = object()
>>> b = Foo(a, a)
>>> c = asdict(b)
>>> b.x is b.y
>>> c['x'] is c['y']
>>> c['x'] is b.x
  • 2
    OK, this makes sense. I guess I just looking for a "pythonic" way to convert a dataclass into a dictionary, without relying on dunder attributes like __dict__. I guess vars(my_data_class) accomplishes that.
    – ostrokach
    Sep 7, 2018 at 21:07
  • 2
    @ostrokach don't do that. It does't convert to a dict it returns the objects' namespace dict. Sep 7, 2018 at 21:08
  • My use-case is df = pd.DataFrame([vars(dc) for dc in dcs]), so a copy is made eventually. But in general, yes, you are right.
    – ostrokach
    Sep 7, 2018 at 21:11
  • @RickyLevi: That doesn't make sense. It sounds like you screwed up something else somewhere. Mar 16 at 11:25

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