In modern versions of Ppython one can have static type analysis using function annotations, according to PEP 484. This is made easy through the typing module.

Now I'm wondering how I would give a "type hint" towards a "filestream".

def myfunction(file: FILETYPE):

with open(fname) as file:

What would I insert as FILETYPE?

Using print(type(file)) returns <class '_io.TextIOWrapper'> which isn't clear at all.

Isn't there a generic "file" type?

  • Must the annotation refer to a physical file on disk, or can it also include file-like objects like StringIO? – jwodder Jan 19 '17 at 19:36

You can use typing.IO, typing.TextIO, and typing.BinaryIO to represent different types of I/O streams. To quote the documentation:

class typing.io

    Wrapper namespace for I/O stream types.

    This defines the generic type IO[AnyStr] and aliases TextIO and BinaryIO for
    respectively IO[str] and IO[bytes]. These represent the types of I/O streams such
    as returned by open().

    These types are also accessible directly as typing.IO, typing.TextIO, and


I think you want io.IOBase, "[t]he abstract base class for all I/O classes, acting on streams of bytes."

Note that this includes also in-memory streams like io.StringIO and io.BytesIO. Read the documentation on the module io for details.

  • 1
    Just as a comment: while this is the "best" answer I might get. The problem is still not solved with this. A lot of things depend on _io._base and derivatives from that. There is no "generic" top layer for both _io._base and io.base though? – paul23 Feb 22 '17 at 17:26
  • @paul23 I don't understand what you mean. AFAIK io.IOBase is the best type hint towards a "bytestream" and every file-like object that can be created using the standard library is an instance of it. If IOBase does not match your idea of a bytestream or you have a use case where it's not a good type hint you might want to edit your question and explain why. – Stop harming Monica Feb 22 '17 at 19:24
  • for example if you open a in memory byte stream with BytesIO; This derives from _BufferedIOBase which derives from _IOBase – paul23 Feb 22 '17 at 19:47
  • @paul23 How is that a problem? Just in case you didn't notice, io.BytesIO also inherits from io.IOBase. – Stop harming Monica Feb 22 '17 at 20:40

Either this:

from typing import TextIO # or IO or BinaryIO

def myfunction(file: TextIO ):

OR this

from typing import TYPE_CHECKING
    from typing import TextIO # or IO or BinaryIO

def myfunction(file: 'TextIO'):

The second approach would avoid to import the class during execution. Although python would still have to import TYPE_CHECKING during execution, it is a good practice to avoid importing classes for type hinting only: (1) doesn't get executed (just parsed), and (2) it could avoid cyclic imports.

  • 1
    Given one of the goals on the type hinting PEP 484, I don't see why it's a good practice to avoid imports for type hints. – gerardw Sep 19 '19 at 17:43

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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