mypy is really handy and catches a lot of bugs, but when I write "scientific" applications, I often end up doing:

def my_func(number: Union[float, int]):
    # Do something

number is either a float or int, depending on the user's input. Is there an official way to do that?

4 Answers 4


Use float only, as int is implied in that type:

def my_func(number: float):

PEP 484 Type Hints specifically states that:

Rather than requiring that users write import numbers and then use numbers.Float etc., this PEP proposes a straightforward shortcut that is almost as effective: when an argument is annotated as having type float, an argument of type int is acceptable; similar, for an argument annotated as having type complex, arguments of type float or int are acceptable.

(Bold emphasis mine).

Ideally you would still use numbers.Real:

from numbers import Real

def my_func(number: Real):

as that would accept fractions.Fraction() and decimal.Decimal() objects as well; the number pyramid is broader than just integers and floating point values.

However, these are not currently working when using mypy to do your type checking, see Mypy #3186.

  • 8
    Tangentially related, but Decimal is not actually a subclass of Real, or part of the numeric tower at all: python.org/dev/peps/pep-3141/#the-decimal-type Jun 21, 2019 at 15:32
  • 1
    @user1475412 — interestingly, decimal.Decimal is now registered as a virtual subclass of numbers.Number (though still isn't a virtual subclass of numbers.Real). I think the decision to add it as a virtual subclass must have been made some time after the PEP was written. github.com/python/cpython/blob/… Oct 8, 2021 at 9:57
  • @AlexWaygood: I think you misundrestood something; decimal.Decimal has been registered as a Number for 13 years now, well before the PEP. It still isn't a virtual subclass of numbers.Real, which is what user1475412 is talking about.
    – Martijn Pieters
    Oct 29, 2021 at 12:34
  • @MartijnPieters, I'm not sure I understand your point. The GitHub link you posted shows that decimal.Decimal was registered as a subclass of Number in 2009, but PEP 3141 was written in 2007. So I'm not sure how you can argue that decimal.Decimal was registered as a Number prior to the PEP being written and accepted. And the very first draft of numbers.Number shows the module was only created in response to the acceptance of PEP 3141: github.com/python/cpython/commit/… Oct 29, 2021 at 15:08
  • I'm aware that Decimal is not a virtual subclass of numbers.Real, but user1475412 also said: "Decimal is not actually [...] part of the numeric tower at all", paraphrasing PEP 3141. I interpreted that line in the PEP to mean that the authors of the PEP did not intend for Decimal to be registered as a virtual subclass of any of the numbers classes at that point in time. Am I wrong in that interpretation? Oct 29, 2021 at 15:10

You can define your own type to address this and keep your code cleaner.

FloatInt = Union[float, int]

def my_func(number: FloatInt):
    # Do something

Python > 3.10 allows you to do the following.

def my_func(number: int | float) -> int | float: 
  • As Martijn's answer points out, the mypy documentation clearly states that "when an argument is annotated as having type float, an argument of type int is acceptable". Explicitly annotating the union here is pointless. Oct 8, 2021 at 9:53
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    @AlexWaygood While that statement is true in a majority of cases, it is wrong to say that the type union in pointless in general. int and float are different things in general, and if you code needs to differentiate between these differences locally, the type union is appropriate. Look e.g. at dir(1) vs dir(1.0). If you need any of the member functions that are defined on either one, you need the type union so that the code typechecks correctly.
    – bluenote10
    Dec 28, 2021 at 19:42
  • 1
    @bluenote10 thanks for the correction; you're right, my comment was too strongly worded. Dec 29, 2021 at 1:14

For people who come to this question for the more general problem of Union typing hints for entities which don't have an existing supertype in common, for example Union[int, numpy.ndarray], the solution is to import Union from typing.

Example 1:

from typing import Union

def my_func(number: Union[float, int]):
    # Do something

Example 2:

from typing import Union
import numpy as np

def my_func(x: Union[float, np.ndarray]):
    # do something
    # Do something
  • I guess you probably meant np.number instead of np.ndarray Oct 18, 2022 at 22:04
  • @JongwookChoi no, I didn't. I specifically write the case where I want to deal with floats and numpy arrays, it's not worth a separate question as the question is related enough. np.number already includes float, so there is no need to use Union. Oct 24, 2022 at 17:16
  • I can see your specific use cases, but I feel it's a bit off-topic as the OP asks a question to represent either float and int. Oct 25, 2022 at 4:51
  • 1
    I can see your opinion, but I see it differently, I can to this question when searching how trying to represent float and arrays, which is why I am answering both the original question and also my specific use-case. Oct 25, 2022 at 4:56

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