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Sometimes checking of arguments in Python is necessary. e.g. I have a function which accepts either the address of other node in the network as the raw string address or class Node which encapsulates the other node's information.

I use type(0 function as in:

if type(n) == type(Node):
    do this
elif type(n) == type(str)
    do this

Is this a good way to do this?

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marked as duplicate by SilentGhost, Adam Rosenfield, hop, nosklo, Chris Upchurch Apr 9 '09 at 16:39

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Repeat of stackoverflow.com/questions/378927/…. See answer there. – monkut Apr 9 '09 at 14:00
See also: Python-ideas - Proposal: Use mypy syntax for function annotations - by: Guido van Rossum – NevilleDNZ Dec 10 '14 at 11:56
up vote 18 down vote accepted


No, typechecking arguments in Python is not necessary. It is never necessary.

If your code accepts addresses as rawstring or as a Node object, your design is broken.

That comes from the fact that if you don't know already the type of an object in your own program, then you're doing something wrong already.

Typechecking hurts code reuse and reduces performance. Having a function that performs different things depending on the type of the object passed is bug-prone and has a behavior harder to understand and maintain.

You have following saner options:

  1. Make a Node object constructor that accepts rawstrings, or a function that converts strings in Node objects. Make your function assume the argument passed is a Node object. That way, if you need to pass a string to the function, you just do:


    That's your best option, it is clean, easy to understand and maintain. Anyone reading the code immediatelly understands what is happening, and you don't have to typecheck.

  2. Make two functions, one that accepts Node objects and one that accepts rawstrings. You can make one call the other internally, in the most convenient way (myfunction_str can create a Node object and call myfunction_node, or the other way around).

  3. Make Node objects have a __str__ method and inside your function, call str() on the received argument. That way you always get a string by coercion.

In any case, don't typecheck. It is completely unnecessary and has only downsides. Refactor your code instead in a way you don't need to typecheck. You only get benefits in doing so, both in short and long run.

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If neither Node nor str is your own implementation (and they probably aren't here), you don't get to add methods like str to support your alternative behaviours(*). In this case, typechecking is an obvious and acceptable choice, preferable to having to wrap every str instance. – bobince Apr 9 '09 at 17:52
It is mostly never necessary... not never. If you are using python to define a remote interface (eg: XMLRPC), strong type-checking at the interface can be a good idea, even if only to stop RPC callers who are using strongly typed languages (and mindsets) from having their brains/tempers explode. – Russ Jun 25 '11 at 18:13
In Python, it's the program's responsibility to use built-in functions like isinstance() and issubclass() to test variable types and correct usage. Python tries to stay out of your way while giving you all you need to implement strong type checking. - wiki.python.org/moin/… – Daniel Sokolowski Aug 9 '12 at 5:11
@nosklo: You go around on every other question saying "-1 - No mention that type checking is a bad idea". But in your case, -1 for no mention about where it is officially a bad idea to do type checking. This sounds more like an opinion, or drawing on some other language concept. It seems others are pointing out official statements that support the act of type checking. – jdi Oct 18 '12 at 19:36
This is a very subjective response, I'm surprised it was accepted as the answer. Looking for answer? Look at answer below Type checking/enforcement can be immensely useful when working with larger non-trivial Object Oriented systems with objects (... of very specific types) communicating with one another. While I don't advocate type checking built-in types (list, str, etc..), allowing classes/objects to use/depend on defined behavior of other classes/objects is OOP 101. IMHO Writing off all type checking as "bad practice" simply restricts your abilities/power as an OOP programmer. – ErikTheDeveloper Oct 7 '14 at 12:58

Use isinstance(). Sample:

if isinstance(n, unicode):
    #do this
else if isinstance(n, Node):
    #do that
share|improve this answer
isinstance() also checks for subclasses. – AKX Apr 9 '09 at 14:02
isinstance(n, unicode) won't match plain str objects in python 2.x. Compare against basestring instead, which matches either str or unicode: isinstance(n, basestring) – Jarret Hardie Apr 9 '09 at 14:15
wiki.python.org/moin/… - Part of first paragraph states: In Python, it's the program's responsibility to use built-in functions like isinstance() and issubclass() to test variable types and correct usage. Python tries to stay out of your way while giving you all you need to implement strong type checking. – Daniel Sokolowski Aug 9 '12 at 5:09
+1 to make up for @nosklo's -1. I don't think its cool to -1 people because they don't agree in implementation concepts with you. There are many instances where typechecking is the right thing to do, specially since its a way of overloading a function. This is particularly useful when designing an API to make sure that users do the right thing. – Juan Carlos Moreno Oct 18 '12 at 19:42
+1 to make up for @nosklo's -1 – Matthew Purdon Nov 28 '12 at 18:39
>>> isinstance('a', str)
>>> isinstance(n, Node)
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-1: no mention that typechecking is a bad idea – nosklo Apr 9 '09 at 17:01
well , type checking is a must in my app. I use OleFileIO_PL and it returns item list in a nested list . if the item is a directory type , it is a list inside nested list , if it a file then its a string. Without checking string or not , it gonna be impossible use. – Phyo Arkar Lwin Sep 22 '11 at 20:20

You can also use a try catch to type check if necessary:

def my_function(this_node):
        # call a method/attribute for the Node object
        if this_node.address:
             # more code here
    except AttributeError, e:
        # either this is not a Node or maybe it's a string, 
        # so behavior accordingly

You can see an example of this in Beginning Python in the second about generators (page 197 in my edition) and I believe in the Python Cookbook. Many times catching an AttributeError or TypeError is simpler and apparently faster. Also, it may work best in this manner because then you are not tied to a particular inheritance tree (e.g., your object could be a Node or it could be something other object that has the same behavior as a Node).

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+1: attribute checking won't hurt code reuse, so it is better than typechecking, although having a function with different behaviours based on types is not a good idea. – nosklo Apr 9 '09 at 17:03
As long as the different behaviours are similar (at least in concept), I don't see what the big deal is. We all seem to think that it's OK for + (a.k.a. operator+() in C++) to work on numbers or strings, yet it actually has different behaviours based on types. – RobH Apr 9 '09 at 17:24
In my example, the + operator is, of course, implemented by two different functions that overload the operator. Unfortunately, since variables in Python are not typed, you can't overload functions based solely on type. – RobH Apr 9 '09 at 17:28

Sounds like you're after a "generic function" - one which behaves differently based on the arguments given. It's a bit like how you'll get a different function when you call a method on a different object, but rather than just using the first argument (the object/self) to lookup the function you instead use all of the arguments.

Turbogears uses something like this for deciding how to convert objects to JSON - if I recall correctly.

There's a article here on using the dispatcher package for this sort of thing:


From that article:

import dispatch
def doIt(foo, other):
    "Base generic function of 'doIt()'"
@doIt.when("isinstance(foo,int) and isinstance(other,str)")
def doIt(foo, other):
    print "foo is an unrestricted int |", foo, other
@doIt.when("isinstance(foo,str) and isinstance(other,int)")
def doIt(foo, other):
    print "foo is str, other an int |", foo, other
@doIt.when("isinstance(foo,int) and 3<=foo<=17 and isinstance(other,str)")
def doIt(foo, other):
    print "foo is between 3 and 17 |", foo, other
@doIt.when("isinstance(foo,int) and 0<=foo<=1000 and isinstance(other,str)")
def doIt(foo, other):
    print "foo is between 0 and 1000 |", foo, other

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This is uglier and less maintainable than just hacking it out with typechecking IMO; an attempt to graft overloaded functions onto a language where it just doesn't fit very well. – bobince Apr 9 '09 at 17:55
I like the feature of c++ of function overloading which seems to be possible with this approach. I think it makes the code more readable since you don't have to check the arguments for certain types or values. Nice posting! – Woltan Feb 8 '11 at 8:43

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