61

I have a routine that takes a list of strings as a parameter, but I'd like to support passing in a single string and converting it to a list of one string. For example:

def func( files ):
    for f in files:
        doSomethingWithFile( f )

func( ['file1','file2','file3'] )

func( 'file1' ) # should be treated like ['file1']

How can my function tell whether a string or a list has been passed in? I know there is a type function, but is there a "more pythonic" way?

37

Well, there's nothing unpythonic about checking type. Having said that, if you're willing to put a small burden on the caller:

def func( *files ):
    for f in files:
         doSomethingWithFile( f )

func( *['file1','file2','file3'] ) #Is treated like func('file1','file2','file3')
func( 'file1' )

I'd argue this is more pythonic in that "explicit is better than implicit". Here there is at least a recognition on the part of the caller when the input is already in list form.

  • 10
    Surely the more "explicit" method would be to require the user to pass the single-file in a list? Like func(['file1']) – dbr May 7 '09 at 19:08
  • 2
    I agree that that is explicit, but I don't see how it is more explicit. Both techniques use the same logic; one is the reverse of the other. I happen to think that the above is slightly more intuitive, because it emphasizes that the files in the list rather than the list itself is relevant to func. – David Berger May 7 '09 at 21:03
43
isinstance(your_var, basestring)
  • 4
    This solution needs some explanation, some context. Neither your_var nor basestring are in the OP's post. – ExcessOperatorHeadspace Apr 27 '17 at 20:55
  • 4
    This doesn't work from Python 3. Use isinstance(your_var, str). – Attila Tanyi Oct 10 '17 at 10:17
  • The other comments hilariously also do not work. Import six and check if it's a string using that for python2 and 3 compatibility as well as utf string support in python2 – MrMesees May 2 at 8:46
32

Personally, I don't really like this sort of behavior -- it interferes with duck typing. One could argue that it doesn't obey the "Explicit is better than implicit" mantra. Why not use the varargs syntax:

def func( *files ):
    for f in files:
        doSomethingWithFile( f )

func( 'file1', 'file2', 'file3' )
func( 'file1' )
func( *listOfFiles )
  • 1
    "Personally, I don't really like this sort of behavior", what are you referring to, specifically? – James McMahon May 8 '09 at 1:15
  • 1
    @nemo I think he meant the original question, which could be interpreted as asking for a function whose parameter is either a string or list of strings wherein the function call offers no mention of which type of parameter is passed in. I agree with this. – David Berger May 8 '09 at 16:15
  • 1
    FWIW, varargs only works if there're no other args: func(file, someflag), can't be turned into func(*files, someflag) without turning someflag into a keyword arg – pjz Nov 23 '15 at 19:37
16

I would say the most Python'y way is to make the user always pass a list, even if there is only one item in it. It makes it really obvious func() can take a list of files

def func(files):
    for cur_file in files:
        blah(cur_file)

func(['file1'])

As Dave suggested, you could use the func(*files) syntax, but I never liked this feature, and it seems more explicit ("explicit is better than implicit") to simply require a list. It's also turning your special-case (calling func with a single file) into the default case, because now you have to use extra syntax to call func with a list..

If you do want to make a special-case for an argument being a string, use the isinstance() builtin, and compare to basestring (which both str() and unicode() are derived from) for example:

def func(files):
    if isinstance(files, basestring):
        doSomethingWithASingleFile(files)
    else:
        for f in files:
            doSomethingWithFile(f)

Really, I suggest simply requiring a list, even with only one file (after all, it only requires two extra characters!)

  • 12
    The problem is that if you only rely on duck typing here, a string is treated like a list with duck typing, and doesn't do the right thing. Instead of treating it like a single item, python will treat the string like a list of characters. Whups. – Robert P Dec 7 '11 at 19:01
  • Note that Python 3 has no basestring. Use str unless you're referring to a bytes object (which you definitely shouldn't be for this use case). – Soren Bjornstad Sep 4 '18 at 22:58
11
def func(files):
    for f in files if not isinstance(files, basestring) else [files]:
        doSomethingWithFile(f)

func(['file1', 'file2', 'file3'])

func('file1')
  • POP 8 seems to prefer isinstance(u'abc', basestring) instead of using the types module. – max Aug 2 '09 at 15:49
  • @mdorseif: I've edited the answer to use basestring instead of types module. – jfs Nov 13 '10 at 17:25
11
if hasattr(f, 'lower'): print "I'm string like"
  • A very simple solution that worked perfectly for me. Thanks! – Jamie Brown Jul 18 '13 at 15:58
  • 3
    that works until someone passes you a collection with a lower method on it :-/ – AlexChaffee Jun 14 '16 at 17:47
  • 1
    ^ such as a mathematical object, or one which interfaces with a real world function such as raising or lowering a mechanically controlled window. :) – Joshua Burns Nov 8 '16 at 1:41
  • The casefold method is probably more string-like – Eponymous Sep 21 '17 at 14:39
  • this might not be the most robust as others are pointing out, but it does certainly fit with duck-typing quite well. – MrMesees May 2 at 8:49
6

If you have more control over the caller, then one of the other answers is better. I don't have that luxury in my case so I settled on the following solution (with caveats):

def islistlike(v):
   """Return True if v is a non-string sequence and is iterable. Note that
   not all objects with getitem() have the iterable attribute"""
   if hasattr(v, '__iter__') and not isinstance(v, basestring):
       return True
   else:
       #This will happen for most atomic types like numbers and strings
       return False

This approach will work for cases where you are dealing with a know set of list-like types that meet the above criteria. Some sequence types will be missed though.

3

Varargs was confusing for me, so I tested it out in Python to clear it up for myself.

First of all the PEP for varargs is here.

Here is sample program, based on the two answers from Dave and David Berger, followed by the output, just for clarification.

def func( *files ):
    print files
    for f in files:
        print( f )

if __name__ == '__main__':
    func( *['file1','file2','file3'] ) #Is treated like func('file1','file2','file3')
    func( 'onestring' )
    func( 'thing1','thing2','thing3' )
    func( ['stuff1','stuff2','stuff3'] )

And the resulting output;

('file1', 'file2', 'file3')
file1
file2
file3
('onestring',)
onestring
('thing1', 'thing2', 'thing3')
thing1
thing2
thing3
(['stuff1', 'stuff2', 'stuff3'],)
['stuff1', 'stuff2', 'stuff3']

Hope this is helpful to somebody else.

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