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Is there a way to check if the type of a variable in python is string.. like

isinstance(x,int);

for integer values?

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5  
Required reading on isinstance if you are learning python canonical.org/~kragen/isinstance . –  whaley Jan 30 '11 at 13:35
4  
Don't. There's no use for this. Ever. Please provide the context in which you think this might be useful and we'll show you the better alternative. –  S.Lott Jan 30 '11 at 14:01
9  
@S.Lott -- OK, I'll bite! A function returns an object which is either a datetime.datetime, or a datetime in string format (with a known, fixed format spec). We need a datetime. What's the best answer without checking to see if the return is a string? –  Christophe Sep 4 '12 at 15:25
    
Just because I'm curious about a better way.... I'm handling part of a JSON request with a predefined API of: do X for a string (really a URL), recurse on each element of a list, or do various things based on which keys are present in a dictionary. What approach would be better? –  DonGar Jun 16 '13 at 2:56
    
@S.Lott How would you do if isinstance(b, basestring): result = eval("b"+term+"a") else: result = eval(str(b)+term+str(a)) –  Caltor Jun 27 '13 at 14:26

11 Answers 11

In Python 2.x, you would do

isinstance(s, basestring)

to check for str or unicode objects. In Python 3.x, it would be

isinstance(s, str)
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2  
Will isinstance(s, basestring) work in 3.x? –  Yarin Jul 7 '13 at 15:49
    
@Yarin: No. But it doesn't matter, because Python 3.x is not meant to be compatible with Python 2.x at all. –  netcoder Jul 15 '13 at 17:45
    
I found that isinstance(s, str) works with py27, tested on : Python 2.7.5 (default, Aug 25 2013, 00:04:04) [GCC 4.2.1 Compatible Apple LLVM 5.0 (clang-500.0.68)] on darwin. –  kakyo Jan 16 at 21:38
2  
@kakyo: The problem is that it will miss unicode objects, which should also be considered strings. Both the type str and the type unicode have the common base class basestring, and this is what you want to check for. –  Sven Marnach Jan 16 at 21:41

I know this is an old topic, but being the first one shown on google and given that I don't find any of the answers satisfactory, I'll leave this here for future reference:

six is a Python 2 and 3 compatibility library which already covers this issue. You can then do something like this:

import six

if isinstance(value, six.string_types):
    pass # It's a string !!

Inspecting the code, this is what you find:

PY3 = sys.version_info[0] == 3

if PY3:
    string_types = str,
else:
    string_types = basestring,

Cheers.

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Also I want notice that if you want to check whether the type of a variable is a specific kind, you can compare the type of the variable to the type of a known object.

For string you can use this

type(s) == type('')
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Edit based on better answer below. Go down about 3 answers and find out about the coolness of basestring.

Old answer: Watch out for unicode strings, which you can get from several places, including all COM calls in Windows.

if isinstance(target, str) or isinstance(target, unicode):
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4  
Isn't that what basestring is good for? –  Tobias Kienzler Jan 23 '13 at 15:59
    
Good catch. I didn't know about basestring. It's mentioned about 3 posts down and seems like a better answer. –  Wade Hatler Feb 19 at 17:26

The type module also exists if you are checking more than ints and strings. http://docs.python.org/library/types.html

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Alternative way for Python 2, without using basestring:

isinstance(s, (str, unicode))

But still won't work in Python 3 since unicode isn't defined (in Python 3).

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This is how I do it:

if type(x) == type(str()):
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If you do not want to depend on external libs, this works both for Python 2.7+ and Python 3 (http://ideone.com/uB4Kdc):

# your code goes here
s = ["test"];
#s = "test";
isString = False;

if(isinstance(s, str)):
    isString = True;
try:
    if(isinstance(s, basestring)):
        isString = True;
except NameError:
    pass;

if(isString):
    print("String");
else:
    print("Not String");
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In python 3.x

if type(x) is str:
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This is probably not the most elegant approach and it's not going to win any "code golf" contests ... but I did feel compelled to write my own version of a function to handle this more generically:

#!/usr/bin/python
from __future__ import print_function

def chunker(size, seq, partial=False, join=None):
    '''takes sequences and separates them into fixed length chunks.
    For example: chunker(3, 'abcdefgh') would return:
        [['a', 'b', 'c'], ['d', 'e', 'f']]

    chunker(3, 'abcdefgh', True, True) would return:
        ['abc', 'def', 'gh']

    and chunker(3, 'abcdefgh', False, True) would return:
        ['abc', 'def']

    Optional arguments for "partial" and "join" allow us to include any
    trailing partial chunk and to "join" the (or otherwise post-process)
    each set of partial results using any function we like (''.join(x)
    by default).  '''

    results = list()
    chunk   = list()
    if join is True and isinstance(seq, basestring):
        join = lambda x: ''.join(x)
    for each in seq:
        if len(chunk) == size:
            if join:
                results.append(join(chunk))
            else:
                results.append(chunk)
            chunk = list()
        chunk.append(each)

    # Handle last chunk:
    if len(chunk) == size:
        if join:
            results.append(join(chunk))
        else:
            results.append(chunk)
        chunk = list()
    elif partial:
        if join:
            results.append(join(chunk))
        else:
            results.append(chunk)
    return results
if __name__ == '__main__':

    print("\t\t %s" % repr(chunker(3, 'abcdefgh')))
    print("compare to:\t [['a', 'b', 'c'], ['d', 'e', 'f']]\n")

    print("\t\t %s" % repr(chunker(3, 'abcdefgh', True, True)))
    print("compare to:\t ['abc', 'def', 'gh']\n")

    print("\t\t %s" % repr(chunker(3, 'abcdefgh', False, True)))
    print("compare to:\t ['abc', 'def']\n")

    print("\t\t %s" % repr(chunker(2, 'abcdefgh', False, ':'.join)))
    print("compare to:\t ['a:b', 'c:d', 'e:f', 'g:h']\n")

    print("\t\t %s" % repr(chunker(2, [4,3,2,1,0,-1,-2])))
    print("compare to:\t [[4, 3], [2, 1], [0, -1]]\n")

    print("\t\t %s" % repr(chunker(2, [4,3,2,1,0,-1,-2], True, sum)))
    print("compare to:\t [7, 3, -1, -2]\n")

Most of the complexity is in the handling of the partial and join options ... and there is the little bit about handling the trailing chunk or partial chunk (an easy fencepost to miss).

What it lacks in terseness and elegance I hope it makes up in readability and generality. Incidentally the last example shows the use of a custom "join" function ... giving us something like "chunker/reducer" functionality.

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I've seen:

hasattr(s, 'endswith') 
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