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Is there a simple way to determine if a variable is a list, dictionary, or something else? I am getting an object back that may be either type and I need to be able to tell the difference.

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While in general I agree with you, there are situations where it is helpful to know. In this particular case I was doing some quick hacking that I eventually rolled back, so you are correct this time. But in some cases - when using reflection, for example - it is important to know what type of object you are dealing with. – Justin Ethier Feb 9 '10 at 13:10
@S.Lott I'd disagree with that; by being able to know the type, you can deal with some pretty variant input and still do the right thing. It lets you work around interface issues inherent with relying on pure duck-typing (eg, the .bark() method on a Tree means something entirely different than on a Dog.) For example, you could make a function that does some work on a file that accepts a string (eg, a path), a path object, or a list. All have different interfaces, but the final result is the same: do some operation on that file. – Robert P Jul 21 '11 at 21:33
@S.Lott I hoped it would be obvious that it's a contrived example; nonetheless it's a major failing point of duck typing, and one that try doesn't help with. For example, if you knew that a user could pass in a string or an array, both are index-able, but that index means something completely different. Simply relying on a try-catch in those cases will fail in unexpected and strange ways. One solution is to make a separate method, another to add a little type checking. I personally prefer polymorphic behavior over multiple methods that do almost the same thing...but that's just me :) – Robert P Jul 22 '11 at 0:57
@S.Lott, what about unit testing? Sometimes you want your tests to verify that a function is returning something of the right type. A very real example is when you have class factory. – 3noch Sep 24 '12 at 16:23
For a less contrived example, consider a serializer/deserializer. By definition you are converting between user-supplied objects and a serialized representation. The serializer needs to determine the type of object you passed in, and you may not have adequate information to determine the deserialized type without asking the runtime (or at the very least, you may need it for sanity checking to catch bad data before it enters your system!) – Karl May 13 '13 at 2:35
up vote 772 down vote accepted

To get the type of an object, you can use the built-in type() function. Passing an object as the only parameter will return the type object of that object:

>>> type([]) is list
>>> type({}) is dict
>>> type('') is str
>>> type(0) is int
>>> type({})
<type 'dict'>
>>> type([])
<type 'list'>

This of course also works for custom types:

>>> class Test1 (object):
>>> class Test2 (Test1):
>>> a = Test1()
>>> b = Test2()
>>> type(a) is Test1
>>> type(b) is Test2

Note that type() will only return the immediate type of the object, but won’t be able to tell you about type inheritance.

>>> type(b) is Test1

To cover that, you should use the isinstance function. This of course also works for built-in types:

>>> isinstance(b, Test1)
>>> isinstance(b, Test2)
>>> isinstance(a, Test1)
>>> isinstance(a, Test2)
>>> isinstance([], list)
>>> isinstance({}, dict)

isinstance() is usually the preferred way to ensure the type of an object because it will also accept derived types. So unless you actually need the type object (for whatever reason), using isinstance() is preferred over type().

The second parameter of isinstance() also accepts a tuple of types, so it’s possible to check for multiple types at once. isinstance will then return true, if the object is of any of those types:

>>> isinstance([], (tuple, list, set))
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I think it's clearer to use is instead of == as the types are singletons – John La Rooy Feb 8 '10 at 22:01
@gnibbler, In the cases you would be typechecking (which you shouldn't be doing to begin with), isinstance is the preferred form anyhow, so neither == or is need be used. – Mike Graham Feb 8 '10 at 22:50
@Mike Graham, there are times when type is the best answer. There are times when isinstance is the best answer and there are times when duck typing is the best answer. It's important to know all of the options so you can choose which is more appropriate for the situation. – John La Rooy Feb 8 '10 at 23:13
@gnibbler, That may be, though I haven't yet ran into the situation where type(foo) is SomeType would be better than isinstance(foo, SomeType). – Mike Graham Feb 9 '10 at 16:45
@poke: i totally agree about PEP8, but you’re attacking a strawman here: the important part of Sven’s argument wasn’t PEP8, but that you can use isinstance for your usecase (checking for a range of types) as well, and with as clean a syntax as well, which has the great advantage that you can capture subclasses. someone using OrderedDict would hate your code to fail because it just accepts pure dicts. – flying sheep Oct 27 '12 at 11:12

You can do that using type():

>>> a = []
>>> type(a)
<type 'list'>
>>> f = ()
>>> type(f)
<type 'tuple'>
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It might be more Pythonic to use a try...except block. That way, if you have a class which quacks like a list, or quacks like a dict, it will behave properly regardless of what its type really is.

To clarify, the preferred method of "telling the difference" between variable types is with something called duck typing: as long as the methods (and return types) that a variable responds to are what your subroutine expects, treat it like what you expect it to be. For example, if you have a class that overloads the bracket operators with getattr and setattr, but uses some funny internal scheme, it would be appropriate for it to behave as a dictionary if that's what it's trying to emulate.

The other problem with the type(A) is type(B) checking is that if A is a subclass of B, it evaluates to false when, programmatically, you would hope it would be true. If an object is a subclass of a list, it should work like a list: checking the type as presented in the other answer will prevent this. (isinstance will work, however).

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Duck typing isn't really about telling the difference, though. It is about using a common interface. – Justin Ethier Nov 18 '11 at 19:31

On instances of object you also have the:


attribute. Here is a sample taken from Python 3.3 console

>>> str = "str"
>>> str.__class__
<class 'str'>
>>> i = 2
>>> i.__class__
<class 'int'>
>>> class Test():
...     pass
>>> a = Test()
>>> a.__class__
<class '__main__.Test'>

Beware that in python 3.x and in New-Style classes (aviable optionally from Python 2.6) class and type have been merged and this can sometime lead to unexpected results. Mainly for this reason my favorite way of testing types/classes is to the isinstance built in function.

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You can use type() or isinstance().

>>> type([]) is list

Be warned that you can clobber list or any other type by assigning a variable in the current scope of the same name.

>>> the_d = {}
>>> t = lambda x: "aight" if type(x) is dict else "NOPE"
>>> t(the_d) 'aight'
>>> dict = "dude."
>>> t(the_d) 'NOPE'

Above we see that dict gets reassigned to a string, therefore the test:

type({}) is dict


To get around this and use type() more cautiously:

>>> import __builtin__
>>> the_d = {}
>>> type({}) is dict
>>> dict =""
>>> type({}) is dict
>>> type({}) is __builtin__.dict
share|improve this answer
I'm not sure it's necessary to point out that shadowing the name of a builtin data type is bad for this case. Your dict string will also fail for lots of other code, like dict([("key1", "value1"), ("key2", "value2")]). The answer for those kinds of issues is "Then don't do that". Don't shadow builtin type names and expect things to work properly. – Blckknght May 31 '14 at 22:12
I agree with you on the "don't do that" part. But indeed to tell someone not to do something you should at least explain why not and I figured this was a relevant opportunity to do just that. I meant for the cautious method to look ugly and illustrate why they might not want to do it, leaving them to decide. – deed02392 Jun 4 '14 at 15:39

protected by NullPoiиteя Oct 27 '13 at 16:21

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