Is there any correct type hint to use for a file or file-like object in Python? For example, how would I type-hint the return value of this function?
def foo() -> ???: return open('bar')
Use either the
typing.BinaryIO types, for files opened in text mode or binary mode respectively.
From the docs:
Wrapper namespace for I/O stream types.
This defines the generic type
IO[bytes]. These representing the types of I/O streams such as returned by
The short answer:
from typing import TextIOnot just
from typing import *.
IOto mean a file without specifying what kind
BinaryIOif you know the type
As an example:
from typing import BinaryIO def binf(inf: BinaryIO): pass with open('x') as f: binf(f)
gives an inspection error (in PyCharm) of
Expected type 'BinaryIO', got 'TextIO' instead
They risk being overly restrictive to the caller, because they include things that you often don't actually need, like
Instead, consider defining your own
typing.Protocol. This lets you only require the parts of the "file-like" interface that you actually need.
So, for example, instead of doing this:
def foo(file_like: typing.TextIO) -> None: read_str = file_like.read() # ...
Consider doing this:
class TextFileLike(typing.Protocol): def read() -> str: ... def foo(file_like: TextFileLike) -> None: read_str = file_like.read() # ...
Some Python core developers give this advice on https://github.com/python/typing/discussions/829.
typing.BinaryIO] classes were meant to model the concept of a "file object", but when you start looking at how "file objects" are really used across the Python library system, you quickly realize that there's a ton of variation in what exactly you can do with them.
The downside to this
typing.Protocol strategy is that it restricts your ability to change your implementation later on. For example, if you decide later that you want to call
.readline() instead of
.read(), and you didn't include
.readline() in your original
typing.Protocol, you'll need to make a breaking change to your interface. In other words, it's a tradeoff between being too restrictive to your callers up-front and causing API usability problems, or coupling the interface too tightly to your implementation and causing breaking changes down the line.