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I have a function that take an argument which can be either a single item or a double item:

def iterable(arg)
    if #arg is an iterable:
        print "yes"
        print "no"

so that:

>>> iterable( ("f","f") )

>>> iterable( ["f","f"] )

>>> iterable("ff")

The problem is that string is technically iterable, so I can't just catch the ValueError when trying arg[1]. I don't want to use isinstance(), because that's not good practice (or so I'm told).

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Which version of Python? I believe the answer is different between 2.* and 3 –  Kathy Van Stone Jun 28 '09 at 17:47
i'm using version 2.5 –  priestc Jun 28 '09 at 17:48
You were told incorrectly, isinstance is not bad practice. –  Lennart Regebro Jun 28 '09 at 20:37
Oh, wait, maybe he refers to the principle that it's bad to check an objects type, and that this is an indication of the program being broken? This is true in principle (but not always in practice). This may or may not be such a case. But it's not the function isinstance that is the problem, it's the habit of checking for types. –  Lennart Regebro Jun 28 '09 at 20:45
@Lennart: canonical.org/~kragen/isinstance it may be outdated though –  priestc Jun 30 '09 at 3:47

6 Answers 6

up vote 16 down vote accepted

Use isinstance (I don't see why it's bad practice)

import types
if not isinstance(arg, types.StringTypes):

Note the use of StringTypes. It ensures that we don't forget about some obscure type of string.

On the upside, this also works for derived string classes.

class MyString(str):

isinstance(MyString("  "), types.StringTypes) # true

Also, you might want to have a look at this previous question.


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Nice, scvalex. I'm removing my -1 now and making it a +1 :-). –  Tom Jun 28 '09 at 18:19
I think the bad practice idea is because of the duck typing principle. Being a member of a particular class does neither mean that it's the only object that can be used nor that the expected methods are available. But I think sometimes you just can't infer what the method does even if it's present, so isinstance might be the only way. –  estani Dec 5 '12 at 15:19
-1, conditional would be True even if input is a number, function, class... –  Nick T Jan 16 at 7:19

By combining previous replies, I'm using:

import type
import collections


if isinstance(var, types.StringTypes ) \
    or not isinstance(var, collections.Iterable):

#[Do stuff...]

Not 100% fools proof, but if an object is not an iterable you still can let it pass and fall back to duck typing.

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I realise this is an old post but thought it was worth adding my approach for Internet posterity. The function below seems to work for me under most circumstances with both Python 2 and 3:

def is_collection(obj):
    """ Returns true for any iterable which is not a string or byte sequence.
        if isinstance(obj, unicode):
            return False
    except NameError:
    if isinstance(obj, bytes):
        return False
    except TypeError:
        return False
        hasattr(None, obj)
    except TypeError:
        return True
    return False

This checks for a non-string iterable by (mis)using the built-in hasattr which will raise a TypeError when its second argument is not a string or unicode string.

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Strings does not have en __iter__ attribute, unlike other iterable objects:

>>> hasattr( ("f","f"), '__iter__')

>>> hasattr( ["f","f"], '__iter__')

>>> hasattr("ff", '__iter__')
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That's true in Python 2.7, but not true for Python 3.x. At this point, checking this way is a bad idea for portability. –  mattmc3 Jun 1 at 21:39

Since Python 2.6, with the introduction of abstract base classes, isinstance (used on ABCs, not concrete classes) is now considered perfectly acceptable. Specifically:

from abc import ABCMeta, abstractmethod

class NonStringIterable:
    __metaclass__ = ABCMeta

    def __iter__(self):
        while False:
            yield None

    def __subclasshook__(cls, C):
        if cls is NonStringIterable:
            if any("__iter__" in B.__dict__ for B in C.__mro__):
                return True
        return NotImplemented

This is an exact copy (changing only the class name) of Iterable as defined in _abcoll.py (an implementation detail of collections.py)... the reason this works as you wish, while collections.Iterable doesn't, is that the latter goes the extra mile to ensure strings are considered iterable, by calling Iterable.register(str) explicitly just after this class statement.

Of course it's easy to augment __subclasshook__ by returning False before the any call for other classes you want to specifically exclude from your definition.

In any case, after you have imported this new module as myiter, isinstance('ciao', myiter.NonStringIterable) will be False, and isinstance([1,2,3], myiter.NonStringIterable)will be True, just as you request -- and in Python 2.6 and later this is considered the proper way to embody such checks... define an abstract base class and check isinstance on it.

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In Python 3 isinstance('spam', NonStringIterable) returns True. –  Nick T Apr 22 at 6:30
(...) and in Python 2.6 and later this is considered the proper way to embody such checks (...) How abusing well known concept of abstract class in such a way could ever be considered the proper way is beyond my comprehension. The proper way would be to introduce some lookslike operator instead. –  Piotr Dobrogost Oct 23 at 9:54

As you point out correctly, a single string is a character sequence.

So the thing you really want to do is to find out what kind of sequence arg is by using isinstance or type(a)==str.

If you want to realize a function that takes a variable amount of parameters, you should do it like this:

def function(*args):
    # args is a tuple
    for arg in args:

function("ff") and function("ff", "ff") will work.

I can't see a scenario where an isiterable() function like yours is needed. It isn't isinstance() that is bad style but situations where you need to use isinstance().

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