How can I check if a Python object is a string (either regular or Unicode)?

  • 18
    What Jason's referring to is duck typing (if it quacks like a duck it probably is a duck). In Python you often "let your code work" on any string-like object without testing whether it's a string or string subclass. For more info, see: docs.python.org/glossary.html#term-duck-typing – Ben Hoyt Aug 20 '09 at 0:12
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    That's what I love about SO. I usually ask a question, it isn't answered, people tell me I shouldn't be doing that anyway and why, and I grow as a programmer. =) – physicsmichael Aug 20 '09 at 17:41
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    +1: Just because an answer is rarely needed, doesn't mean the question is invalid. Although, I think it's great to have a caution here, I don't think it merits demoting the question. – Trevor Mar 8 '13 at 23:42
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    This is possibly the most legitimate use of type checking in Python. Strings are iterable, so distinguishing them from lists any other way is a bad idea. – ojrac Mar 15 '13 at 19:07
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    There are definitely cases where it is necessary to distinguish strings from other iterables. For example, see the source code for PrettyPrinter in the pprint module. – saxman01 Jun 10 '14 at 14:38

13 Answers 13


Python 2

Use isinstance(obj, basestring) for an object-to-test obj.



To check if an object o is a string type of a subclass of a string type:

isinstance(o, basestring)

because both str and unicode are subclasses of basestring.

To check if the type of o is exactly str:

type(o) is str

To check if o is an instance of str or any subclass of str:

isinstance(o, str)

The above also work for Unicode strings if you replace str with unicode.

However, you may not need to do explicit type checking at all. "Duck typing" may fit your needs. See http://docs.python.org/glossary.html#term-duck-typing.

See also What’s the canonical way to check for type in python?

  • local variable 'str' referenced before assignment – john ktejik Oct 30 '17 at 2:27
  • @johnktejik python3 vs python2. You need to check for basestring in py2. – erikbwork Aug 29 '18 at 13:31

Python 3

In Python 3.x basestring is not available anymore, as str is the sole string type (with the semantics of Python 2.x's unicode).

So the check in Python 3.x is just:

isinstance(obj_to_test, str)

This follows the fix of the official 2to3 conversion tool: converting basestring to str.

  • 3
    @Brad You are sure that you were using Python 3.x? What does repr() of your string return? – sevenforce Aug 28 '15 at 16:39
  • Ah...not, was using 2.7 – Brad Aug 28 '15 at 20:40

Python 2 and 3


If you want to check with no regard for Python version (2.x vs 3.x), use six (PyPI) and its string_types attribute:

import six

if isinstance(obj, six.string_types):
    print('obj is a string!')

Within six (a very light-weight single-file module), it's simply doing this:

import sys
PY3 = sys.version_info[0] == 3

if PY3:
    string_types = str
    string_types = basestring
  • Alternatively, you can use future (PyPI) to even keep the name: from past.builtins import basestring – David Nemeskey Feb 8 '17 at 14:25
  • 1
    BTW the Cheat Sheet is a great resource for Python version compatibility. – David Nemeskey Feb 8 '17 at 14:45
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    What about not using any imports? First try basestring and then fall back to str. E.g. def is_string(obj): try: return isinstance(obj, basestring) # python 2 except NameError: return isinstance(obj, str) # python 3 – isaacbernat Aug 13 '17 at 18:19

I found this ans more pythonic:

if type(aObject) is str:
    #do your stuff here

since type objects are singleton, is can be used to do the compare the object to the str type

  • 4
    This is not the general recommended way of testing for type, because of inheritance: isinstance(obj_to_test, str) is obviously meant to test for type, and it has the advantage of using the same procedure as for other, non-str cases. – Eric O Lebigot Jun 17 '18 at 16:41

If one wants to stay away from explicit type-checking (and there are good reasons to stay away from it), probably the safest part of the string protocol to check is:

str(maybe_string) == maybe_string

It won't iterate through an iterable or iterator, it won't call a list-of-strings a string and it correctly detects a stringlike as a string.

Of course there are drawbacks. For example, str(maybe_string) may be a heavy calculation. As so often, the answer is it depends.

EDIT: As @Tcll points out in the comments, the question actually asks for a way to detect both unicode strings and bytestrings. On Python 2 this answer will fail with an exception for unicode strings that contain non-ASCII characters, and on Python 3 it will return False for all bytestrings.

  • In the case of objects that initialize with representation data, this may not work as expected... b = b'test'; r = str(b) == b where b holds the same data as str(b) but (being a bytes object) does not validate as a string. – Tcll Dec 6 '19 at 0:18
  • @Tcll Right, the question actually says "either regular or Unicode". I guess I didn't read it properly. – clacke Jan 4 at 21:27

In order to check if your variable is something you could go like:

s='Hello World'
if isinstance(s,str):
#do something here,

The output of isistance will give you a boolean True or False value so you can adjust accordingly. You can check the expected acronym of your value by initially using: type(s) This will return you type 'str' so you can use it in the isistance function.


I might deal with this in the duck-typing style, like others mention. How do I know a string is really a string? well, obviously by converting it to a string!

def myfunc(word):
    word = unicode(word)

If the arg is already a string or unicode type, real_word will hold its value unmodified. If the object passed implements a __unicode__ method, that is used to get its unicode representation. If the object passed cannot be used as a string, the unicode builtin raises an exception.

isinstance(your_object, basestring)

will be True if your object is indeed a string-type. 'str' is reserved word.

my apologies, the correct answer is using 'basestring' instead of 'str' in order of it to include unicode strings as well - as been noted above by one of the other responders.

  • Doesn't work for unicode objects, which were explicitly requested in the question. – dbn May 2 '14 at 19:31

This evening I ran into a situation in which I thought I was going to have to check against the str type, but it turned out I did not.

My approach to solving the problem will probably work in many situations, so I offer it below in case others reading this question are interested (Python 3 only).

# NOTE: fields is an object that COULD be any number of things, including:
# - a single string-like object
# - a string-like object that needs to be converted to a sequence of 
# string-like objects at some separator, sep
# - a sequence of string-like objects
def getfields(*fields, sep=' ', validator=lambda f: True):
    '''Take a field sequence definition and yield from a validated
     field sequence. Accepts a string, a string with separators, 
     or a sequence of strings'''
    if fields:
            # single unpack in the case of a single argument
            fieldseq, = fields
                # convert to string sequence if string
                fieldseq = fieldseq.split(sep)
            except AttributeError:
                # not a string; assume other iterable
        except ValueError:
            # not a single argument and not a string
            fieldseq = fields
        invalid_fields = [field for field in fieldseq if not validator(field)]
        if invalid_fields:
            raise ValueError('One or more field names is invalid:\n'
        raise ValueError('No fields were provided')
        yield from fieldseq
    except TypeError as e:
        raise ValueError('Single field argument must be a string'
                         'or an interable') from e

Some tests:

from . import getfields

def test_getfields_novalidation():
    result = ['a', 'b']
    assert list(getfields('a b')) == result
    assert list(getfields('a,b', sep=',')) == result
    assert list(getfields('a', 'b')) == result
    assert list(getfields(['a', 'b'])) == result

You can test it by concatenating with an empty string:

def is_string(s):
    s += ''
    return False
  return True


Correcting my answer after comments pointing out that this fails with lists

def is_string(s):
  return isinstance(s, basestring)
  • You are right, thanks for pointing out. I have given an alternative answer. – georgepsarakis Oct 14 '13 at 14:06

For a nice duck-typing approach for string-likes that has the bonus of working with both Python 2.x and 3.x:

def is_string(obj):
        obj + ''
        return True
    except TypeError:
        return False

wisefish was close with the duck-typing before he switched to the isinstance approach, except that += has a different meaning for lists than + does.

  • 2
    Well, you have two downvotes and no one provided a comment. I've not downvoted but I don't like your solution because: * Too verbose. You shouldn't need to define a function to do this. * Expensive. Catching exceptions is not good for performance. * Error prone. Other object might implement add, see a string, and raise another type of exception, which is not TypeError. – santiagobasulto Dec 3 '15 at 17:59
  • Also here you are employing the duck-typing approach, which is beautiful, but end up with throwing and catching exception just to find out something, which is not beautiful. – Alexey Tigarev Jan 5 '16 at 20:07
  • This may be legitimately the only surefire way to distinguish between a string-like and some other iterable of string. One could look for attributes like isalpha, but who knows what methods would be safe to look for? – clacke Jul 28 '16 at 12:33
  • I realized that the __str__ method plus equality may actually be the fool-proof one. But even that is not without caveats. – clacke Jul 28 '16 at 12:46
  • @santiagobasulto exceptions are cheap in Python. If you expect the error 1% of the time, try can be faster. If you expect it 99% of the time, maybe not. The performance difference being minimal, it's better to be idiomatic unless you profile your code and identify it as actually being slow. – Nick T Feb 8 '17 at 15:49
if type(varA) == str or type(varB) == str:
    print 'string involved'

from EDX - online course MITx: 6.00.1x Introduction to Computer Science and Programming Using Python

  • 6
    This is probably the worst possible way to check. Not only does it exclude unicode objects, it even excludes subclasses of str! – augurar Dec 16 '14 at 22:23

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