Checking whether a variable is an integer or not

How do I check whether a variable is an integer?

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There's no reason to do this. Please provide some context or situation in which you think this might be necessary. It's almost never necessary to check the type of an object. Please update the question with the situation or context in which this occurs. –  S.Lott Aug 17 '10 at 10:27
How should such a question be answered? There is a way to do this but it is almost always not the best way to go about it. Should an answer (1) point out the way to do it (2) explain the reasons against it (3) show alternatives (4) dismiss the question altogether? –  Manoj Govindan Aug 17 '10 at 10:42
@Manoj: yes =P... –  katrielalex Aug 17 '10 at 10:44
@Hulk: You seem to be under the impression that `type` is the right way to do this. It is (almost certainly) not. –  katrielalex Aug 17 '10 at 12:16
This question is ambiguous, and the answers are accordingly divided. Some are answering how to check the type of a variable (5→True, 5.0→ False), while others are answering how to check that the value is an integer (5→True, 5.0→True, Fraction(5,1)→True, 5.4→False). Maybe the question and answers should be split up accordingly? –  endolith May 10 '13 at 14:39

If you need to do this, do

``````isinstance( <var>, int )
``````

unless you are in Python 2.x in which case you want

``````isinstance( <var>, ( int, long ) )
``````

Do not use `type`. It is almost never the right answer in Python, since it blocks all the flexibility of polymorphism. For instance, if you subclass `int`, your new class should register as an `int`, which `type` will not do:

``````class Spam( int ): pass
x = Spam( 0 )
type( x ) == int # False
isinstance( x, int ) # True
``````

This adheres to Python's strong polymorphism: you should allow any object that behaves like an `int`, instead of mandating that it be one.

BUT

The classical Python mentality, though, is that it's easier to ask forgiveness than permission. In other words, don't check whether `x` is an integer; assume that it is and catch the exception results if it isn't:

``````try:
x += 1
except TypeError:
...
``````

This mentality is slowly being overtaken by the use of abstract base classes, which let you register exactly what properties your object should have (adding? multiplying? doubling?) by making it inherit from a specially-constructed class. That would be the best solution, since it will permit exactly those objects with the necessary and sufficient attributes, but you will have to read the docs on how to use it.

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For Python 2.x to check for an integer you really need to use `isinstance(x, (int, long))`. After all a `long` is an integer too! –  Scott Griffiths Aug 17 '10 at 10:29
Thanks, will mention it. I haven't used Python 2.x for a while =p –  katrielalex Aug 17 '10 at 10:35
Hmm. I wonder about the BUT part! isn't proper and clear data checking on method input(e.g. start, before beginning to do anyting with a variable) good practice in python as it should generally be in any programming? So, for example, before I give data to a database query when wanting to fetch an objetc by id, which is an integer, I check if input is actually and integer and useable before handing it to the database layer. –  Henning Jun 15 '13 at 9:49
@Henning I believe the "Pythonic" answer would be "no." By duck typing, it's only a problem if it would cause an error in the database level, and there's no way to tell if that's the case based on the type. So according to the BUT section, the best course of action would be to simply let the database layer throw the error and deal with it when it comes up. Anything with compatible behavior could be used; the `int`/`long` issue is a great example; what if someone has a custom `short` type? It's compatible with `int` and the database, but your code wouldn't accept it if it checked the type. –  jpmc26 Jul 5 '13 at 23:01
@katrielalex This might sound stupid to you but can you explain to me why is `isinstance( True, int )` is returning True. –  Nagri Nov 18 '13 at 8:04
``````>>> isinstance(3, int)
True
``````

See here for more.

Note that this does not help if you're looking for `int`-like attributes. In this case you may also want to check for `long`:

``````>>> isinstance(3L, (long, int))
True
``````

I've seen checks of this kind against an array/index type in the Python source, but I don't think that's visible outside of C.

Token SO reply: Are you sure you should be checking its type? Either don't pass a type you can't handle, or don't try to outsmart your potential code reusers, they may have a good reason not to pass an int to your function.

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+1: After all, `decimal.Decimal` and `fractions.Rational` often works where you've so carefully checked for `int`. Type checking in advance prevents legal, appropriate use. It doesn't prevent any problems. –  S.Lott Aug 17 '10 at 11:05
I had a variable in a dictionary so have to do a type check in this case –  Hulk Aug 17 '10 at 12:06
@Hulk: Why is that case special? –  katrielalex Aug 17 '10 at 12:17
The requirement was such that if value of the variable is not a integer then not to process further.. –  Hulk Aug 17 '10 at 13:41
@Hulk: "if value of the variable is not a integer then not to process further" Best handled by exception surrounding the loop. This does not need any type checking. –  S.Lott Aug 17 '10 at 14:20

All proposed answers so far seem to miss the fact that a double can also be an integer (if it has nothing after the decimal point). I use the built-in `is_integer()` method on doubles to check this.

Example (to do something every xth time in a for loop):

``````for index in range(y):
# do something
if (index/x.).is_integer():
# do something special
``````
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Do you have a link to documentation for this `is_integer` function? I can't find one. –  Gabe Apr 11 '13 at 21:30
There is not much, but here is the official documentation: docs.python.org/2/library/stdtypes.html#float.is_integer –  saroele Apr 12 '13 at 8:41
That's good to know. Although, it's a `float` method, so it's not a general-purpose function that can be applied to any type to determine whether it's an integer. –  Craig McQueen Sep 12 '13 at 23:50

If you really need to check then it's better to use abstract base classes rather than concrete classes. For an integer that would mean:

``````>>> import numbers
>>> isinstance(3, numbers.Integral)
True
``````

This doesn't restrict the check to just `int`, or just `int` and `long`, but also allows other user-defined types that behave as integers to work.

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`isinstance(Fraction(5,1), numbers.Integral)` → False. Is that right? –  endolith Jun 30 '12 at 17:10
@endolith: My answer (and the others) say whether the variable's type is an integer rather than if the variable itself could be converted to an integer without losing information. So yes your example is `False`, in the same way as checking the 'integerness' of `5.00` would be. –  Scott Griffiths Jun 30 '12 at 22:29
... but I suppose you could also do an 'is this object exactly representable as an integer' test along the lines of `type(f)(int(f)) == f`. –  Scott Griffiths Jun 30 '12 at 22:32
this is the best answer... –  Christopher Monsanto Sep 5 '12 at 11:04
+1 Works in Py 2.6+ and 3.x. –  martineau Jun 25 '13 at 18:21

If you want to check that a string consists of only digits, but converting to an int won't help, you can always just use regex.

``````import re
x = "01234"
match = re.search("^\d+\$", x)
try: x = match.group(0)
except AttributeError: print("not a valid number")

Result: x == "01234"
``````

In this case, if x were "hello", converting it to a numeric type would throw a ValueError, but data would also be lost in the process. Using a regex and catching an AttributeError would allow you to confirm numeric characters in a string with, for instance, leading 0's.

If you didn't want it to throw an AttributeError, but instead just wanted to look for more specific problems, you could vary the regex and just check the match:

``````import re
x = "h01234"
match = re.search("\D", x)
if not match:
print("x is a number")
else:
print("encountered a problem at character:", match.group(0))

Result: "encountered a problem at character: h"
``````

That actually shows you where the problem occurred without the use of exceptions. Again, this is not for testing the type, but rather the characters themselves. This gives you much more flexibility than simply checking for types, especially when converting between types can lose important string data, like leading 0's.

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No need for regex to do that: `all(ch in set(string.digits) for ch in x)`, but as pointed out elsewhere on this page, it's a bad method anyway. –  Thijs van Dien Nov 24 '12 at 20:48

Why not try something like:

if x%1 == 0

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why not just check if the value you want to check is equal to itself cast as an integer as shown below?

``````def isInt(val):
return val == int(val):
``````
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need to enclose (or replace) the test with a `try/except` block, or it will throw exception if `val` is, for example, `'a'` –  MestreLion May 14 '13 at 5:55
Could replace with `return val == int(val)`, and the exception block is needed as MestreLion mentions. –  jpmc26 Jul 13 '13 at 7:56

Found a related question here on SO itself.

Python developers prefer to not check types but do a type specific operation and catch a `TypeError` exception. But if you don't know the type then you have the following.

``````>>> i = 12345
>>> type(i)
<type 'int'>
>>> type(i) is int
True
``````
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-1 You should at the very least explain why not to do this. Just posting this code promotes bad Python. (I hate to downvote this, because it's technically correct, but it shouldn't be upvoted.) –  katrielalex Aug 17 '10 at 10:25
There you go. You would be glad to notice it is not up-voted now either. –  Jungle Hunter Aug 17 '10 at 10:37
Thanks. Downvote removed. (Though you could be a bit more emphatic about not using `type` =p.) –  katrielalex Aug 17 '10 at 10:39

If the variable is entered like a string (e.g. `'2010'`):

``````if variable and variable.isdigit():
return variable #or whatever you want to do with it.
else:
return "Error" #or whatever you want to do with it.
``````

Before using this I worked it out with `try/except` and checking for `(int(variable))`, but it was longer code. I wonder if there's any difference in use of resources or speed.

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This won't handle "-3", for example. –  DSM Jun 16 '12 at 7:04
You are right DSM –  Ramon Suarez Jun 16 '12 at 12:22

use the int function to help

``````    intchecker = float(input('Please enter a integer: '))
intcheck = 0
while intcheck != 1:
if intchecker - int(intchecker) > 0:
intchecker = float(input("you didn't enter a integer.\nplease enter a integer"))
else:
intcheck = 1
print('you have entered a integer')
``````
-

I was writing a program to check if a number was square and I encountered this issue, the code I used was:

``````import math
print ("this program will tell you if a number is square")
print ("enter an integer")
num = float(input())
if num > 0:
print ("ok!")
num = (math.sqrt(num))
inter = int(num)
if num == inter:
print ("It's a square number, and its root is")
print (num)
else:
print ("It's not a square number, but its root is")
print (num)
else:
print ("That's not a positive number!")
``````

To tell if the number was an integer I converted the float number you get from square rooting the user input to a rounded integer (stored as the value ), if those two numbers were equal then the first number must have been an integer, allowing the program to respond. This may not be the shortest way of doing this but it worked for me.

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That doesn't seem like a correct algorithm, since it will fail for integers bigger than what a float mantissa can hold. Try it with `12345678901234567890123456789012` (which is not a square) and see if it gives the right answer. You should implement an integer square root algorithm instead. –  Craig McQueen Sep 13 '13 at 0:04
See this question regarding integer square roots. –  Craig McQueen Sep 13 '13 at 0:18

it's really astounding to see such a heated discussion coming up when such a basic, valid and, i believe, mundane question is being asked.

some people have pointed out that type-checking against `int` (and `long`) might loose cases where a big decimal number is encountered. quite right.

some people have pointed out that you should 'just do `x + 1` and see whether that fails. well, for one thing, this works on floats too, and, on the other hand, it's easy to construct a class that is definitely not very numeric, yet defines the `+` operator in some way.

i am at odds with many posts vigorously declaring that you should not check for types. well, GvR once said something to the effect that in pure theory, that may be right, but in practice, `isinstance` often serves a useful purpose (that's a while ago, don't have the link; you can read what GvR says about related issues in posts like this one).

what is funny is how many people seem to assume that the OP's intent was to check whether the type of a given `x` is a numerical integer type—what i understood is what i normally mean when using the OP's words: whether `x` represents an integer number. and this can be very important: like ask someone how many items they'd want to pick, you may want to check you get a non-negative integer number back. use cases like this abound.

it's also, in my opinion, important to see that (1) type checking is but ONE—and often quite coarse—measure of program correctness, because (2) it is often bounded values that make sense, and out-of-bounds values that make nonsense. sometimes just some intermittent values make sense—like considering all numbers, only those real (non-complex), integer numbers might be possible in a given case.

funny non-one seems to mention checking for `x == math.floor( x )`. if that should give an error with some big decimal class, well, then maybe it's time to re-think OOP paradigms. there is also PEP 357 that considers how to use not-so-obviously-`int`-but-certainly-integer-like values to be used as list indices. not sure whether i like the solution.

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A simple method I use in all my software is this. It checks whether the variable is made up of numbers.

``````test = input("Enter some text here: ")
if test.isdigit() == True:
print("This is a number.")
else:
print("This is not a number.")
``````
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you can do this by:

``````name = 'Bob'
if type(name) == str:
print 'this works'
else:
print 'this does not work'
``````

and it will return 'this works'... but if you change name to int(1) then it will return 'this does not work' because it is now a string... you can also try:

``````name = int(5)
if type(name) == int:
print 'this works'
else:
print 'this does not work'
``````

and the same thing will happen

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There is another option to do the type check.

For example:

``````  n = 14
if type(n)==int:
return "this is an int"
``````
-

If you just need the value, `operator.index` (`__index__` special method) is the way to go in my opinion. Since it should work for all types that can be safely cast to an integer. I.e. floats fail, integers, even fancy integer classes that do not implement the Integral abstract class work by duck typing.

`operator.index` is what is used for list indexing, etc. And in my opinion it should be used for much more/promoted.

In fact I would argue it is the only correct way to get integer values if you want to be certain that floating points, due to truncating problems, etc. are rejected and it works with all integral types (i.e. numpy, etc.) even if they may not (yet) support the abstract class.

This is what `__index__` was introduced for!

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As simple as this:

``````def is_int(a):
"""Returns true if a can be an integer"""
try:
int (a)
return True
except:
return False
``````
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this way is_int(3.2) would return True –  Riccardo Galli May 25 '13 at 0:36
Not sure who upvoted this; it's totally wrong. `is_int(4.3)``True` –  endolith Nov 22 '13 at 1:21
I was misguided when I saw the upvote, so I downvoted it. –  Sasanka Panguluri Nov 23 '13 at 19:13

If you want to check with no regard for Python version (2.x vs 3.x), use `six` (PyPI) and it's `integer_types` attribute:

``````import six

if isinstance(obj, six.integer_types):
print('obj is an integer!')
``````

Within `six` (a very light-weight single-file module), it's simply doing this:

``````import sys
PY3 = sys.version_info[0] == 3

if PY3:
integer_types = int,
else:
integer_types = (int, long)
``````
-

Never. Check. Types.

Do this. Always.

``````try:
some operation that "requires" an integer
except TypeError, e:
it wasn't an integer, fail.
``````
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It is sometimes necessary to check the type of the object (as you admit in your comment above). Although it's usually misguided there are real use-cases and the language provides the facilities to do it. I don't think that saying never ever do something is helpful or correct. –  Scott Griffiths Aug 17 '10 at 10:35
Certainly in terms of efficiency and readable code, yes type checking has proved invaluable to me. For example in an initialiser that takes different types not doing an explicit check can lead to some convoluted and computationally expensive code. I can't really provide a good example in a comment though! –  Scott Griffiths Aug 17 '10 at 10:47
@Scott Griffiths. That's the only counter example. That's why I said "never". It's always important to use universals to force people to think. It's never appropriate to waffle around about special cases. –  S.Lott Aug 17 '10 at 10:53
@Scott Giffiths: Also, "in terms of efficiency" is likely false. Please measure carefully. Except clauses are remarkably efficient. –  S.Lott Aug 17 '10 at 10:59
The efficiency argument isn't just in terms of single statements. I agree that try/except is very efficient and isinstance() is remarkably slow (I have profiled quite a lot). Sometimes to distinguish between, for example, a string and another type of iterable you might have go some way before an exception gets raised (if an exception gets raised at all!) So the time lost is in going half-way through the try clause before being able to bail out. This can also be quite a fragile arrangement and you run the risk that a later change might make the exception not be raised. –  Scott Griffiths Aug 17 '10 at 11:15