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I have a Python function that takes a numeric argument that must be an integer in order for it behave correctly. What is the preferred way of verifying this in Python?

My first reaction is to do something like this:

def isInteger(n):
    return int(n) == n

But I can't help thinking that this is 1) expensive 2) ugly and 3) subject to the tender mercies of machine epsilon.

Does Python provide any native means of type checking variables? Or is this considered to be a violation of the language's dynamically typed design?

EDIT: since a number of people have asked - the application in question works with IPv4 prefixes, sourcing data from flat text files. If any input is parsed into a float, that record should be viewed as malformed and ignored.

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Duplicate: stackoverflow.com/questions/378927/… –  S.Lott Jan 21 '09 at 0:29
so, does n have to be of type integer, or does it only have to be a whole number? –  hop Jan 21 '09 at 1:02

7 Answers 7

up vote 14 down vote accepted
isinstance(n, int)

If you need to know whether it's definitely an actual int and not a subclass of int (generally you shouldn't need to do this):

type(n) is int


return int(n) == n

isn't such a good idea, as cross-type comparisons can be true - notably int(3.0)==3.0

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I found the 'type' function about 5 minutes after posting the question. :) Out of interest, is there any significant performance hit in using 'isInstance' over 'type' ? –  Murali Suriar Jan 21 '09 at 0:14
If anything, I would expect isinstance to be faster. The difference shouldn't be much, though (and if you're really concerned about performance, why are you using Python?) –  David Z Jan 21 '09 at 0:17
@David: I'm not concerned about performance for this program specifically; this is the prototype of a hobby project that may or may not be abandoned. That said, I'm interested in the difference between the two approaches, and the trade-offs involved in each. More speed is never a bad thing. :) –  Murali Suriar Jan 21 '09 at 0:20
timeit.Timer() says type-is-int is about 4% faster than isinstance-int on my machine with Python 2.6. Pretty negligable either way, go for the one that says best what you mean. –  bobince Jan 21 '09 at 0:45
-1: typecheck is not a good idea. You should say that on your answer. –  nosklo Jan 21 '09 at 10:43

Yeah, as Evan said, don't type check. Just try to use the value:

def myintfunction(value):
   """ Please pass an integer """
   return 2 + value

That doesn't have a typecheck. It is much better! Let's see what happens when I try it:

>>> myintfunction(5)

That works, because it is an integer. Hm. Lets try some text.

>>> myintfunction('text')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 3, in myintfunction
TypeError: unsupported operand type(s) for +: 'int' and 'str'

It shows an error, TypeError, which is what it should do anyway. If caller wants to catch that, it is possible.

What would you do if you did a typecheck? Show an error right? So you don't have to typecheck because the error is already showing up automatically.

Plus since you didn't typecheck, you have your function working with other types:


>>> print myintfunction(2.2)

Complex numbers:

>>> print myintfunction(5j)


>>> import decimal
>>> myintfunction(decimal.Decimal('15'))

Even completely arbitrary objects that can add numbers!

>>> class MyAdderClass(object):
...     def __radd__(self, value):
...             print 'got some value: ', value
...             return 25
>>> m = MyAdderClass()
>>> print myintfunction(m)
got some value:  2

So you clearly get nothing by typechecking. And lose a lot.


Since you've edited the question, it is now clear that your application calls some upstream routine that makes sense only with ints.

That being the case, I still think you should pass the parameter as received to the upstream function. The upstream function will deal with it correctly e.g. raising an error if it needs to. I highly doubt that your function that deals with IPs will behave strangely if you pass it a float. If you can give us the name of the library we can check that for you.

But... If the upstream function will behave incorrectly and kill some kids if you pass it a float (I still highly doubt it), then just just call int() on it:

def myintfunction(value):
   """ Please pass an integer """
   return upstreamfunction(int(value))

You're still not typechecking, so you get most benefits of not typechecking.

If even after all that, you really want to type check, despite it reducing your application's readability and performance for absolutely no benefit, use an assert to do it.

assert isinstance(...)
assert type() is xxxx

That way we can turn off asserts and remove this <sarcasm>feature</sarcasm> from the program by calling it as

python -OO program.py
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He said that the function won't work if the argument isn't an int. Having the function "work" with floats and complex numbers because it isn't typechecked is a bug, not a feature –  Nick Jan 21 '09 at 5:02
@Nick: If it won't work if the argument isn't a int, what would it do instead? Raise error? Well, python does that already. Also, if the func works with other types like float then that isn't a bug, it's a feature, because the func is working. Making it not work would be an artificial restriction. –  nosklo Jan 21 '09 at 10:46
@Nick: How can you know that the function won't work without an int? What if I provide an object that is not an int but behaves exactly as an int? Why that shouldn't work? –  nosklo Jan 21 '09 at 12:01
@nosklo: The function may 'work' when passed another argument, but for the purposes of the problem, the result should be 'undefined'. I've never heard of a non-integral prefix length. –  Murali Suriar Jan 22 '09 at 10:33
@nosklo: The generally accepted format for IPv4 CIDR prefixes is A.B.C.D/E where A-D are integers in the range 0-255, and E is an int in the range 0-32. If the above conditions are not met, the input is malformed and should be ignored. Am I missing something obvious here? What makes this bad design? –  Murali Suriar Jan 23 '09 at 19:25

Don't type check. The whole point of duck typing is that you shouldn't have to. For instance, what if someone did something like this:

class MyInt(int):
    # ... extra stuff ...
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If you use isinstance() you can cover that case. Some functions really need an integer and duck typing is just going to hide a possible bug. –  Nick Jan 21 '09 at 5:03
+1: Not typecheck is way better. @Nick: can you give an example of such function? Why I can't pass a float to a function that needs an integer? One should use int() on the value instead of typechecking. –  nosklo Jan 21 '09 at 10:48
@nosklo: if you have a function that requires an int as an argument, say because it is an array length or some other integer quantity, then using int() to squash it can hide bugs. In many cases, programs should fail early when given invalid input, not silently try to patch up the input. –  Nick Apr 7 '09 at 16:53
if type(n) is int

This checks if n is a Python int, and only an int. It won't accept subclasses of int.

Type-checking, however, does not fit the "Python way". You better use n as an int, and if it throws an exception, catch it and act upon it.

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-1 because it won't support inheritance. –  bruno desthuilliers Jan 21 '09 at 9:48
-1 because typechecking is useless. –  nosklo Jan 21 '09 at 10:48
Come on, guys. The answer was helpful re the question, although not very much. Instead of downvoting, fix it, because if many people agree that type-checking is not very Pythonic, the correct message might come through more easily. –  tzot Jan 21 '09 at 13:58
@ΤΖΩΤΖΙΟΥ - Partially agree –  David Jan 25 '09 at 17:04

Programming in Python and performing typechecking as you might in other languages does seem like choosing a screwdriver to bang a nail in with. It is more elegant to use Python's exception handling features.

From an interactive command line, you can run a statement like:


That will generate an error - ipython tells me:

<type 'exceptions.ValueError'>: invalid literal for int() with base 10: 'sometext'

Now you can write some code like:

   int(myvar) + 50
except ValueError:
   print "Not a number"

That can be customised to perform whatever operations are required AND to catch any errors that are expected. It looks a bit convoluted but fits the syntax and idioms of Python and results in very readable code (once you become used to speaking Python).

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I would be tempted to to something like:

def check_and_convert(x):
    x = int(x)
    assert 0 <= x <= 255, "must be between 0 and 255 (inclusive)"
    return x

class IPv4(object):
    """IPv4 CIDR prefixes is A.B.C.D/E where A-D are 
       integers in the range 0-255, and E is an int 
       in the range 0-32."""

    def __init__(self, a, b, c, d, e=0):
        self.a = check_and_convert(a)
        self.b = check_and_convert(a)
        self.c = check_and_convert(a)
        self.d = check_and_convert(a)
        assert 0 <= x <= 32, "must be between 0 and 32 (inclusive)"
        self.e = int(e)

That way when you are using it anything can be passed in yet you only store a valid integer.

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how about:

def ip(string):
    subs = string.split('.')
    if len(subs) != 4:
        raise ValueError("incorrect input")
    out = tuple(int(v) for v in subs if 0 <= int(v) <= 255)
    if len(out) != 4:
        raise ValueError("incorrect input")
    return out

ofcourse there is the standard isinstance(3, int) function ...

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