In python, what's the best way to test if a variable contains a list or a tuple? (ie. a collection)

Is isinstance() as evil as suggested here? http://www.canonical.org/~kragen/isinstance/

Update: the most common reason I want to distinguish a list from a string is when I have some indefinitely deep nested tree / data-structure of lists of lists of lists of strings etc. which I'm exploring with a recursive algorithm and I need to know when I've hit the "leaf" nodes.

  • 77
    Broadly dismissing type-checking as evil is a bit facile. It's part of the language. If it is so evil, someone should write a PEP to remove it. Feb 2, 2010 at 15:11
  • 4
    @Adam Crossland: "It's part of the language." Just like division by zero. It's avoidable. In this case, without additional information, it's probably completely needless. Most type checking in Python is needless. Since not all is needless, some type checking needs to be present. But that doesn't mean it's helpful, valuable, or even a good idea.
    – S.Lott
    Feb 2, 2010 at 16:07
  • 12
    So you're saying that some type checking is needed, but despite that, it's useless, worthless and a bad idea. Sorry, that just doesn't make sense. Feb 2, 2010 at 22:59
  • 19
    The "XXX is evil" is badly-conceived, misleading shorthand for "the way you're asking to do XXX suggests you don't understand when it should actually be used, and you almost certainly want something else". That's most likely the case here. Feb 2, 2010 at 23:00
  • 2
    I didn't broadly dismiss it as evil. I wrote a short essay about when it's evil and when it's justifiable. That essay may be many things — right, wrong, clear, vague, enjoyable, boring — but one thing it is not is a broad dismissal of the technique. Feb 12, 2010 at 7:55

14 Answers 14

if type(x) is list:
    print 'a list'
elif type(x) is tuple:
    print 'a tuple'
    print 'neither a tuple or a list'
  • 1
    Does not seem to work : type([]) ==> list; type([]) is list ===> False
    – sten
    Jun 5, 2014 at 19:56
  • 3
    In Python 2.7.5: type([]) is list returns True Jun 6, 2014 at 16:38
  • 69
    type(x) in [list,tuple] is shorter. Jan 15, 2015 at 0:28
  • if x and type(x) is list: to avoid the [] mismatch Jun 26, 2017 at 2:32

Go ahead and use isinstance if you need it. It is somewhat evil, as it excludes custom sequences, iterators, and other things that you might actually need. However, sometimes you need to behave differently if someone, for instance, passes a string. My preference there would be to explicitly check for str or unicode like so:

import types
isinstance(var, types.StringTypes)

N.B. Don't mistake types.StringType for types.StringTypes. The latter incorporates str and unicode objects.

The types module is considered by many to be obsolete in favor of just checking directly against the object's type, so if you'd rather not use the above, you can alternatively check explicitly against str and unicode, like this:

isinstance(var, (str, unicode)):


Better still is:

isinstance(var, basestring)

End edit

After either of these, you can fall back to behaving as if you're getting a normal sequence, letting non-sequences raise appropriate exceptions.

See the thing that's "evil" about type checking is not that you might want to behave differently for a certain type of object, it's that you artificially restrict your function from doing the right thing with unexpected object types that would otherwise do the right thing. If you have a final fallback that is not type-checked, you remove this restriction. It should be noted that too much type checking is a code smell that indicates that you might want to do some refactoring, but that doesn't necessarily mean you should avoid it from the getgo.

  • 2
    The types module is a bit of a historical artifact. As mentioned on docs.python.org/dev/library/types.html#module-types if you really must check for the str type you should just use that directly, instead of using types.StringType which is just an alias for it. But I do not think this answer answers the question as asked, because that was about "a collection". Unless you're using a python new enough to have the abc module that's not something you can use isinstance to check for, and even then I would recommend avoiding the check if at all possible.
    – mzz
    Feb 2, 2010 at 16:34
  • 1
    assert isinstance(u'abc', str) == False. I agree that it is better to check against the type directly, rather than using the types module, but types.StringTypes does something that str doesn't: it returns True for str and unicode objects. I'll edit my response to offer a double check as an alternative.
    – jcdyer
    Feb 2, 2010 at 18:14
  • 1
    I realize I didn't answer the question of checking for collections directly, but the actual question asked was "Is isinstance evil?" And I gave a counter example which (1) is a non-evil use of isinstance, because having a fallback means it doesn't break ducktyping, and (2) is a good solution for a very common motivation people have for wanting to check if something is a list or tuple (i.e. to disambiguate them from strings).
    – jcdyer
    Feb 2, 2010 at 18:18
  • I agree, with the caveat that often it's useful for custom types to behave like strings, too. But Python's OO only goes so far... Feb 12, 2010 at 7:57
  • Does class Foo(str): pass do what you want?
    – jcdyer
    Feb 12, 2010 at 15:23

There's nothing wrong with using isinstance as long as it's not redundant. If a variable should only be a list/tuple then document the interface and just use it as such. Otherwise a check is perfectly reasonable:

if isinstance(a, collections.Iterable):
    # use as a container
    # not a container!

This type of check does have some good use-cases, such as with the standard string startswith / endswith methods (although to be accurate these are implemented in C in CPython using an explicit check to see if it's a tuple - there's more than one way to solve this problem, as mentioned in the article you link to).

An explicit check is often better than trying to use the object as a container and handling the exception - that can cause all sorts of problems with code being run partially or unnecessarily.

  • 20
    This is a nice way to check if a variable is iterable. However, it probably won't work for the purposes of this question. Be advised that a string is iterable too and would probably create a false positive.
    – Corey O.
    Jul 24, 2012 at 23:16
  • A set object is also an iterable, which means that while you can surely pop elements from it, but it does not guarantee a certain order, which is a very dangerous thing for certain algorithms. In the cases when ordering of the elements does matter, an algorithm using this snippet could potentially generate different results on different runs!
    – koo
    May 8, 2014 at 12:04

Document the argument as needing to be a sequence, and use it as a sequence. Don't check the type.


On Python 2.8 type(list) is list returns false
I would suggest comparing the type in this horrible way:

if type(a) == type([]) :
  print "variable a is a list"

(well at least on my system, using anaconda on Mac OS X Yosemite)

  • 1
    Does type(a) is list also evaluates to false ? Feb 11, 2015 at 11:39
  • 4
    Did you mean Python 2.7.8? python.org/dev/peps/pep-0404/#official-pronouncement
    – Carl
    Aug 9, 2017 at 23:54
  • Hello, I'm curious: Why do you consider your example "horrible"? Jul 30, 2018 at 1:19
  • type(list) is list returns False because type(list) is type, not list. type(list()) is list or with any other instance of a list will return True. Feb 22, 2019 at 21:21

How about: hasattr(a, "__iter__") ?

It tells if the object returned can be iterated over as a generator. By default, tuples and lists can, but not the string types.

  • 11
    Also results True for strings (at least on Python 3). Sep 10, 2013 at 13:08
  • 3
    This is wrong answer. Since type 'str' has the method 'iter' also. @SzieberthAdam was right. The type 'set' also is iterable, but is not orderable.
    Nov 17, 2016 at 12:26
  • Also dicts have __iter__.
    – thet
    Sep 30, 2017 at 21:50
  • 1
    If you continue, any custom type may have __iter__ for some reason... Feb 27, 2020 at 12:07
>>> l = []
>>> l.__class__.__name__ in ('list', 'tuple')

Python uses "Duck typing", i.e. if a variable kwaks like a duck, it must be a duck. In your case, you probably want it to be iterable, or you want to access the item at a certain index. You should just do this: i.e. use the object in for var: or var[idx] inside a try block, and if you get an exception it wasn't a duck...

  • 7
    The problem with this is if var is a string iteration will occur with probably unexpected results. Nov 12, 2012 at 21:06
  • Despite the fact stated by Brian M. Hunt, his is quite a pythonic solution, in terms of asking for forgiveness rather than permission. Sep 29, 2017 at 14:27

Another easy way to find out if a variable is either list or tuple or generally check variable type would be :

    def islist(obj):

        if ("list" in str(type(obj)) ): return True

        else : return False

If you just need to know if you can use the foo[123] notation with the variable, you can check for the existence of a __getitem__ attribute (which is what python calls when you access by index) with hasattr(foo, '__getitem__')


Has to be more complex test if you really want to handle just about anything as function argument.

type(a) != type('') and hasattr(a, "__iter__")

Although, usually it's enough to just spell out that a function expects iterable and then check only type(a) != type('').

Also it may happen that for a string you have a simple processing path or you are going to be nice and do a split etc., so you don't want to yell at strings and if someone sends you something weird, just let him have an exception.


In principle, I agree with Ignacio, above, but you can also use type to check if something is a tuple or a list.

>>> a = (1,)
>>> type(a)
(type 'tuple')
>>> a = [1]
>>> type(a)
(type 'list')

Not the most elegant, but I do (for Python 3):

if hasattr(instance, '__iter__') and not isinstance(instance, (str, bytes)):

This allows other iterables (like Django querysets) but excludes strings and bytestrings. I typically use this in functions that accept either a single object ID or a list of object IDs. Sometimes the object IDs can be strings and I don't want to iterate over those character by character. :)


You know... I may be doing this the stupid way, but I do this:

    # not a list

Like, if I can know the length of it, it gotta be more than one thing.

Edit: Just realized it won't work if the non-list item is a string (since a string is essentially a list of characters).

  • The typechecker may get a bit mad with this, though.
    – Rusca8
    Sep 2, 2021 at 19:53
  • 1
    That's not going to separate a list or other collection from a string, though. Strings support len()
    – interstar
    Sep 4, 2021 at 21:34
  • Just realized it. Works nice for numbers and such, though.
    – Rusca8
    Sep 5, 2021 at 10:58

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