File-like objects are objects in Python that behave like a real file, e.g. have a read() and a write method(), but have a different implementation from file. It is realization of the Duck Typing concept.

It is considered a good practice to allow a file-like object everywhere where a file is expected so that e.g. a StringIO or a Socket object can be used instead a real file. So it is bad to perform a check like this:

if not isinstance(fp, file):
   raise something

What is the best way to check if an object (e.g. a parameter of a method) is "file-like"?


9 Answers 9


For 3.1+, one of the following:

isinstance(something, io.TextIOBase)
isinstance(something, io.BufferedIOBase)
isinstance(something, io.RawIOBase)
isinstance(something, io.IOBase)

For 2.x, "file-like object" is too vague a thing to check for, but the documentation for whatever function(s) you're dealing with will hopefully tell you what they actually need; if not, read the code.

As other answers point out, the first thing to ask is what exactly you're checking for. Usually, EAFP is sufficient, and more idiomatic.

The glossary says "file-like object" is a synonym for "file object", which ultimately means it's an instance of one of the three abstract base classes defined in the io module, which are themselves all subclasses of IOBase. So, the way to check is exactly as shown above.

(However, checking IOBase isn't very useful. Can you imagine a case where you need to distinguish an actual file-like read(size) from some one-argument function named read that isn't file-like, without also needing to distinguish between text files and raw binary files? So, really, you almost always want to check, e.g., "is a text file object", not "is a file-like object".)

For 2.x, while the io module has existed since 2.6+, built-in file objects are not instances of io classes, neither are any of the file-like objects in the stdlib, and neither are most third-party file-like objects you're likely to encounter. There was no official definition of what "file-like object" means; it's just "something like a builtin file object", and different functions mean different things by "like". Such functions should document what they mean; if they don't, you have to look at the code.

However, the most common meanings are "has read(size)", "has read()", or "is an iterable of strings", but some old libraries may expect readline instead of one of those, some libraries like to close() files you give them, some will expect that if fileno is present then other functionality is available, etc. And similarly for write(buf) (although there are a lot fewer options in that direction).

  • 3
    Finally, someone is keep it real. May 9, 2017 at 23:53
  • 43
    The only useful answer. Why StackOverflowers continue upvoting "Stop doing what you're trying to do, because I know better... and PEP 8, EAFP, and stuff!" posts is beyond my fragile sanity. (Maybe Cthulhu knows?) May 30, 2017 at 7:15
  • 3
    Because we've run into way too much code written by people who didn't think ahead, and it breaks when you pass it something that is almost, but not quite a file because they check explicitly. The whole EAFP, duck typing thing is not some bullshit purity test. It's an actual egineering decision,
    – drxzcl
    Jan 21, 2018 at 19:29
  • 4
    This may be seen as better engineering and I would prefer it personally, but may not work. It is generally not required that file-like objects inherit from IOBase. For example pytest fixtures give you _pytest.capture.EncodedFile which does not inherit from anything. Jan 24, 2020 at 12:33
  • 1
    For those like me who don't know, BufferedIOBase is the "normal" base class for byte-based file objects like BytesIO whereas RawIOBase is an unbuffered variant not normally used. See more here. Feb 11, 2021 at 23:15

As others have said you should generally avoid such checks. One exception is when the object might legitimately be different types and you want different behaviour depending on the type. The EAFP method doesn't always work here as an object could look like more than one type of duck!

For example an initialiser could take a file, string or instance of its own class. You might then have code like:

class A(object):
    def __init__(self, f):
        if isinstance(f, A):
            # Just make a copy.
        elif isinstance(f, file):
            # initialise from the file
            # treat f as a string

Using EAFP here could cause all sorts of subtle problems as each initialisation path gets partially run before throwing an exception. Essentially this construction mimics function overloading and so isn't very Pythonic, but it can be useful if used with care.

As a side note, you can't do the file check in the same way in Python 3. You'll need something like isinstance(f, io.IOBase) instead.


It is generally not good practice to have checks like this in your code at all unless you have special requirements.

In Python the typing is dynamic, why do you feel need to check whether the object is file like, rather than just using it as if it was a file and handling the resulting error?

Any check you can do is going to happen at runtime anyway so doing something like if not hasattr(fp, 'read') and raising some exception provides little more utility than just calling fp.read() and handling the resulting attribute error if the method does not exist.

  • 1
    why what about operators like __add__, __lshift__ or __or__ in custom classes? (file object and API: docs.python.org/glossary.html#term-file-object )
    – n611x007
    Sep 8, 2012 at 12:56
  • 41
    Often just trying it works but I don't buy the Pythonic maxim that if it's hard to do in Python then it's wrong. Imagine you are passed an object and there are 10 different things you might do with that object depending on its type. You're not going to try each possibility and handle the error until you finally get it right. That would be totally inefficient. You don't necessarily need to ask, what type is this, but you do need to be able to ask does this object implement interface X.
    – jcoffland
    Sep 17, 2015 at 6:19
  • 42
    The fact that the python collections library provides what might be called "interface types" (e.g., sequence) speaks to the fact that this is often useful, even in python. In general, when someone asks "how to foo", "don't foo" is not a highly satisfactory answer.
    – AdamC
    Oct 23, 2015 at 19:13
  • 2
    AttributeError can be raised for all sorts of reasons that have nothing to do with whether the object supports the interface you need. hasattr is needed for filelikes that don't derive from IOBase Aug 22, 2019 at 14:43
  • 2
    hasattr(fp, 'seek') is better I found out, spending hours. In some systems (for example fastai), path = pathlib.Path("filename") has both read and write attributes but is not a file-like object. It's probably best to use insintance(fp, io.IOBase) as some comments below suggest.
    – mikey
    Oct 3, 2020 at 8:03

The dominant paradigm here is EAFP: easier to ask forgiveness than permission. Go ahead and use the file interface, then handle the resulting exception, or let them propagate to the caller.

  • 9
    +1: If x isn't file-like, then x.read() will raise it's own exception. Why write an extra if-statement? Just use the object. It will either work or break.
    – S.Lott
    Nov 2, 2009 at 13:48
  • 3
    Don't even handle the exception. If someone passed in something that doesn't match the API you expect, it's not your problem.
    – habnabit
    Nov 2, 2009 at 22:12
  • 1
    @Aaron Gallagher: I am not sure. Is your statement true even if it is hard for me to preserve an consistent state?
    – dmeister
    Nov 4, 2009 at 11:19
  • 1
    To preserve a consistent state you can use "try/finally" (but no except!) or the new "with" statement.
    – drxzcl
    Nov 7, 2009 at 12:25
  • This is also consistent with a "Fail fast and fail loudly" paradigm. Unless you're meticulous, explicit hasattr(...) checks can occasionally cause a function/method to return normally without performing its intended action.
    – Ben Burns
    Aug 22, 2011 at 15:09

It's often useful to raise an error by checking a condition, when that error normally wouldn't be raised until much later on. This is especially true for the boundary between 'user-land' and 'api' code.

You wouldn't place a metal detector at a police station on the exit door, you would place it at the entrance! If not checking a condition means an error might occur that could have been caught 100 lines earlier, or in a super-class instead of being raised in the subclass then I say there is nothing wrong with checking.

Checking for proper types also makes sense when you are accepting more than one type. It's better to raise an exception that says "I require a subclass of basestring, OR file" than just raising an exception because some variable doesn't have a 'seek' method...

This doesn't mean you go crazy and do this everywhere, for the most part I agree with the concept of exceptions raising themselves, but if you can make your API drastically clear, or avoid unnecessary code execution because a simple condition has not been met do so!

  • 1
    I agree, but along the lines of not going crazy with this everywhere - a lot of these concerns should shake out during testing, and some of the "where to catch this/how to display to user" questions will be answered by usability requirements.
    – Ben Burns
    Aug 22, 2011 at 15:16

You can try and call the method then catch the exception:

except AttributeError:
    raise something

If you only want a read and a write method you could do this:

if not (hasattr(fp, 'read') and hasattr(fp, 'write')):
   raise something

If I were you I would go with the try/except method.

  • I'd suggest switching the order of the examples. try is always the first choice. The hasattr checks are only -- for some really obscure reason -- you can't simply use try.
    – S.Lott
    Nov 2, 2009 at 14:07
  • 1
    I suggest using fp.read(0) instead of fp.read() in order to avoid put all code in the try block if you want to process the data from fp subsequently.
    – Meow
    Dec 12, 2014 at 12:19
  • 3
    Note that fp.read() with big files will immediately increase memory usage. May 19, 2015 at 13:21
  • I get this is pythonic, but then we have to read the file twice among other issues. For example, in Flask I did this and realized the underlying FileStorage object needed it's pointer reset after being read. Feb 28, 2020 at 15:19

I ended up running into your question when I was writing an open-like function that could accept a file name, file descriptor or pre-opened file-like object.

Rather than testing for a read method, as the other answers suggest, I ended up checking if the object can be opened. If it can, it's a string or descriptor, and I have a valid file-like object in hand from the result. If open raises a TypeError, then the object is already a file.


Under most circumstances, the best way to handle this is not to. If a method takes a file-like object, and it turns out the object it's passed isn't, the exception that gets raised when the method tries to use the object is not any less informative than any exception you might have raised explicitly.

There's at least one case where you might want to do this kind of check, though, and that's when the object's not being immediately used by what you've passed it to, e.g. if it's being set in a class's constructor. In that case, I would think that the principle of EAFP is trumped by the principle of "fail fast." I'd check the object to make sure it implemented the methods that my class needs (and that they're methods), e.g.:

class C():
    def __init__(self, file):
        if type(getattr(file, 'read')) != type(self.__init__):
            raise AttributeError
        self.file = file
  • 1
    Why getattr(file, 'read') instead of just file.read? This does the exact same thing.
    – abarnert
    Jul 17, 2014 at 19:39
  • 1
    More importantly, this check is wrong. It will raise when given, say, an actual file instance. (Methods of instances of builtin/C-extension types are of type builtin_function_or_method, while those of old-style classes are instancemethod). The fact that this is an old-style class, and that it uses == on types instead of ininstance or issubclass, are further problems, but if the basic idea doesn't work, that hardly matters.
    – abarnert
    Jul 17, 2014 at 19:44

try this:

import os 

if os.path.isfile(path):
   'do something'
  • This one does not on io.StringIO or io.BytesIO. os.path.isfile() works only on strings, bytes, os.PathLike or integers.
    – DiKorsch
    Apr 28, 2021 at 9:52

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