41

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):
    pass

with open(fname) as file:
    myfunction(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?

1
  • 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
40

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
    typing.BinaryIO.

16

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.

4
  • 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
5

Either this:

from typing import TextIO # or IO or BinaryIO

def myfunction(file: TextIO ):
    pass

OR this

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

def myfunction(file: 'TextIO'):
    pass

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
  • 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

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