26
import typing

a: dict[int, int] = {}
b: dict[int, int | str] = a
c: typing.Mapping[int, int | str] = a
d: typing.Mapping[int | str, int] = a

Pylance reports an error for b: dict[int, int | str] = a:

Expression of type "dict[int, int]" is incompatible with declared type "dict[int, int | str]"
  "dict[int, int]" is incompatible with "dict[int, int | str]"
    Type parameter "_VT@dict" is invariant, but "int" is not the same as "int | str"
    Consider switching from "dict" to "Mapping" which is covariant in the value type

But c: typing.Mapping[int, int | str] = a is OK.

Additionally, d: typing.Mapping[int | str, int] = a also gets an error:

Expression of type "dict[int, int]" is incompatible with declared type "Mapping[int | str, int]"
  "dict[int, int]" is incompatible with "Mapping[int | str, int]"
    Type parameter "_KT@Mapping" is invariant, but "int" is not the same as "int | str"

Why are these types hint incompatible?
If a function declares a parameter of type dict[int, int | str], how can I pass a dict[int, int] object as its parameter?

3
  • 8
    See Wikipedia for why array-likes should be invariant: Covariance and contravariance § Arrays
    – wjandrea
    Commented May 27 at 15:43
  • 6
    Beside the point, but functions probably shouldn't declare parameters as dict in the first place, instead using Mapping or MutableMapping as required (read-only or read-write, respectively).
    – wjandrea
    Commented May 27 at 16:00
  • I found a great article about it: blog.daftcode.pl/…
    – keakon
    Commented May 28 at 9:22

2 Answers 2

48

This code may seem correct on first sight if you think of only reading from the dicts:

a: dict[int, int] = {}
b: dict[int, int | str] = a

However, if you ever write to them, you can see how it would be wrong to allow that:

b[1] = "x"
assert isinstance(a[1], int)  # fails

The difference with Mapping type is that it does not support modifications.

(Chukwujiobi's answer explains it well in legal language, if you want a more precise explanation)

5
  • But this is OK: e: typing.MutableMapping[int, typing.Any] = a
    – keakon
    Commented May 27 at 13:50
  • 14
    @keakon using typing.Any tells the type system to exempt that from type checks. Commented May 27 at 14:01
  • @ChukwujiobiCanon Then I can set e[1] = '1' which breaks the declared type of a.
    – keakon
    Commented May 27 at 14:13
  • 9
    @keakon: Any is shorthand for "pretend I inserted casts everywhere, and don't complain if that makes no sense."
    – Kevin
    Commented May 27 at 18:39
  • 1
    in short: never use Any, unless you're looking for trouble
    – njzk2
    Commented May 28 at 19:07
30
+500

dict type was designed to be completely invariant on key and value. Hence when you assign dict[int, int] to dict[int, int | str], you make the type system raise errors. [1]

Mapping type on the other hand wasn’t designed to be completely invariant but rather is invariant on key and covariant on value. Hence you can assign one Mapping type (dict[int, int]) to another (Mapping[int, int | str]) if they are both covariant on value. if they are invariant on key, you can assign them else you cannot. Hence when you assign dict[int, int] to Mapping[int | str, int], you make the type system raise errors. [2][3]

There is a good reason for the above design in the type system and I will give a few:

1. dict type is a concrete type so it will actually get used in a program.

2. Because of the above mentioned, it was designed the way it was to avoid things like this:

a: dict[int, int] = {}
b: dict[int, int | str] = a
b[0] = 0xDEADBEEF
b[1] = "Bull"

dicts are assigned by reference [4] hence any mutation to b is actually a mutation to a. So if one reads a as follows:

x: int = a[0]
assert isinstance(x, int)
y: int = a[1]
assert isinstance(y, int)

One gets unexpected results. x passes but y doesn’t. It then seems like the type system is contradicting itself. This can cause worse problems in a program.

For posterity, to correctly type a dictionary in Python, use Mapping type to denote a readonly dictionary and use MutableMapping type to denote a read-write dictionary.


[1] Of course Python’s type system doesn’t influence program’s running behaviour but at least linters have some use of this.

[2] dict type is a Mapping type but Mapping type is not a dict type.

[3] Keep in mind that the ordering of types is important in type theory.

[4] All variable names in Python are references to values.

7
  • One nit: there is nothing special about dicts with regard to assignment. All values are assigned "by reference" (though the sense is different from how languages like C++ would consider a reference).
    – chepner
    Commented May 31 at 14:27
  • @chepner it by values you mean Containers? I can’t think of a contradiction. But primitives are copied in Python are they? Commented May 31 at 14:36
  • 1
    No. Python doesn't really have primitives. Everything is a Python object that has, in addition to whatever data it represents, additional metadata like a reference to its class object, a reference count, etc. A Python variable is just a name that refers to some object.
    – chepner
    Commented May 31 at 14:51
  • Wow I never knew this. Thanks for this information. I’ll look into it in more detail. Commented May 31 at 14:54
  • 1
    nedbatchelder.com/text/names.html is a good discussion and reference.
    – chepner
    Commented May 31 at 14:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.