This question already has an answer here:

In Python is there a way to turn 1.0 into a integer 1 while the same function ignores 1.5 and leaves it as a float?

Right now, int() will turn 1.0 into 1 but it will also round 1.5 down to 1, which is not what I want.

marked as duplicate by Martijn Pieters python Apr 14 at 11:02

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  • 4
    one way could be to check the float using is_integer() if that passes, convert it to int? – DirtyBit Apr 4 at 7:47
  • 7
    Floats are approximations, 1.0 could actually be 1.00000000000001 or 0.999999999999. – Barmar Apr 4 at 7:49
  • 6
    Note that because of duck typing, this passage you want to achieve is probably out of place or useless, depending on context. – Federico S Apr 4 at 7:52
  • 13
    Please specify your exact requirements in words/rules rather than just with a single example! – Lightness Races in Orbit Apr 4 at 10:35
  • 5
    def f(x): if x == 1.0: return 1 else return 1.5 – Bakuriu Apr 4 at 20:26

12 Answers 12


Continuing from the comments above:

Using is_integer():

Example from the docs:

>>> (1.5).is_integer()
>>> (1.0).is_integer()
>>> (1.4142135623730951).is_integer()
>>> (-2.0).is_integer()
>>> (3.2).is_integer()


s = [1.5, 1.0, 2.5, 3.54, 1.0, 4.4, 2.0]


print([int(x) if x.is_integer() else x for x in s])

Wrapped in a function:

def func(s):
    return [int(x) if x.is_integer() else x for x in s]


If you do not want any import:

def func(s):
    return [int(x) if x == int(x) else x for x in s]


Using map() with lambda function and the iter s:

print(list(map(lambda x: int(x) if x.is_integer() else x, s)))


print(list(map(lambda x: int(x) if int(x) == x else x, s)))


[1.5, 1, 2.5, 3.54, 1, 4.4, 2]
  • 15
    If anyone is curious about about the limits of is_integer() and how far away from 1.0 a floating point number can be and still be considered an integer, I wrote a short script to find the limit. It's a very small number, much more precision than I have ever needed for anything. (1.0 + 1.1102230246251566636831481088739149080825883254353483864385054857848444953560829162597656251e-16).is_integer() returns False, but (1.0 + 1.1102230246251566636831481088739149080825883254353483864385054857848444953560829162597656250e-16).is_integer() returns True. – Josh Davis Apr 4 at 18:33
  • 24
    @JoshDavis That's just about rounding to 1.0 vs. 1.0 + sys.float_info.epsilon. – LegionMammal978 Apr 4 at 19:55
  • All solutions I see here, based on is_integer, will fail miserably if they receive an integer value, because integers doesn't have that method. To be safe, something like this will help: to_int = lambda x: int(x) if float(x).is_integer() else x – accdias Apr 5 at 2:41
  • 4
    @accdias: That won't always work either, since float has representational limits while int does not. Passing x = 1 << 1024 will cause your code to die with an OverflowError. So now you've got additional checks for safety, or exception handling. – ShadowRanger Apr 5 at 3:09
  • @ShadowRanger, that is true but I'm pretty sure most of people will be never reaching the 1 << 1024 limit, if ever. On the other hand, I think it is much more feasible to see someone trying to do 2 .is_integer() than float(1<<1024). Good info anyway. – accdias Apr 5 at 3:57

In case your goal is to convert numbers to a concise string, you could simply use '%g' ("General Format") for formatting:

>>> '%g' % 1.0
>>> '%g' % 1
>>> '%g' % 1.5
>>> '%g' % 0.3
>>> '%g' % 0.9999999999

You can specify the desired accuracy:

>>> '%.15g' % 0.999999999999999
>>> '%.2g' % 0.999
  • This is great but I had a query yesterday that for some reason I couldn't ask, this would turn 0.9 to 1 but considering one only wants 1.0 to 1 or 2.0 to 2 and not 0.9 to 1 or 1.9 to 2. Do we have a workabout in that case? cheers! – DirtyBit Apr 5 at 11:13
  • @DirtyBit: Sorry, I really don't understand the question. '%g' % 0.9 is '0.9' and '%g' % 2.0 is '2'. Floats are displayed as ints only if they're really close to an int, e.g. 0.9999995. But not 0.9 or 0.99 – Eric Duminil Apr 5 at 11:20
  • exactly: print('%g' % 0.9999999999) # 1 but let's say the req. was to only have 1 if it was 1.0 and not 0.9999999999? – DirtyBit Apr 5 at 11:23
  • 2
    @DirtyBit: You can specify the desired accuracy : '%.15g' % 0.999999999999999 is '0.999999999999999' and '%.2g' % 0.999is '1'. From this article : Rounding error is the characteristic feature of floating-point computation. – Eric Duminil Apr 5 at 11:35
  • 2
    Best answer since this is the only valid use case for what the OP wants anyway. – jpmc26 Apr 7 at 8:59

float.is_integer is a method on floats that returns whether or not the float represents an integer.

You can just use this function I made called to_int, that uses is_integer to check whether it represents an integer (e.g. 1.0) or not (e.g. 1.5).

If it represents an integer, return int(a), otherwise just return it's original value.

As you see, I am not using elif or else because return exits the function:

def to_int(a):
   if a.is_integer():
      return int(a)
   return a




Python floats are approximations, so something that prints as 1.0 is not necessarily exactly 1.0. If you want to see if something is approximately an integer, use a sufficiently small epsilon value.

EPSILON = 0.0001 # Make this smaller or larger depending on desired accuracy

def func(x):
  if abs(x - round(x)) < EPSILON:
    return round(x)
    return x

In general, if you're checking whether a float is == to something, that tends to be a code smell, as floating point values are inherently approximate. It's more appropriate in general to check whether a float is near something, within some epsilon range.

  • 4
    While most floating point values are approximations, there are many integers that can be represented exactly. A 64-bit IEEE 754 floating point number (as used in Python and other languages) can represent exactly any signed integer that fits in 53 bits or less. Such integers can be converted 1 to 1 between a 64-bit float and 64-bit integer assuming the integer value could be represented with as little as 53 bits. Addition, subtraction, and multiplication that stays within 53-bits of integer space should yield identical results per IEEE 754 spec. – penguin359 Apr 4 at 18:04
  • 1
    @penguin359 While I agree that integers can be represented exactly in floating point, if you're in the situation that OP is in, you need to ask yourself how close to an integer is "close enough" for your purpose. Is 1.0 + 1e-16 "close enough"? Is 1.0 + 2e-16? It's an important question, as IEEE 754-based "is integer" methods will treat them differently, and you may or may not want to consider 1.0 + 2e-16 "not an integer" while saying 1.0 + 1e-16 is one. -- Having an explicit epsilon (versus the implicit one from IEEE 754) makes your desires clearer. – R.M. Apr 4 at 19:30
  • A comment seeming best at this answer: Setting an epsilon works as in the example provided works fine. Alternatively, especially if dealing with cents (currencies in general), I found it more useful to change from Python's default of binary representation to decimal one, as provided by module decimal (docs.python.org/3.7/library/decimal.html). The difference, for example in a loop iterating from -1 to +1 in increments of 0.1 is either passing very close to 0, or right at 0.0 -- without need for an epsilon set (how would you deal with -1.3877787807814457e-16 currency units?). – Buttonwood Apr 4 at 19:39
  • 1
    "so something that prints as 1.0 is not necessarily exactly 1.0" That depends on the version of python. In modern python3 (IIRC since python 3.2) a float that prints as 1.0 is exactly 1.0. In older versions of python it may not be. Try "print (float(numpy.nextafter(1.0,2)))" to see what happens on your version. – plugwash Apr 5 at 13:36

for list of numbers:

def get_int_if_possible(list_of_numbers):
    return [int(x) if x == int(x) else x for x in list_of_numbers]

for one number:

def get_int_if_possible(number):
    return int(number) if number == int(number) else number

A simple thing you could do is use the modulo operator:

if (myFloat % 1 == 0) // Number is an int
else // numer is not an int

EDIT: Python code

if myFloat % 1 == 0:
  # myFloat is an integer.
  # myFloat is NOT an integer
  • 2
    As he mentioned, this is simply a logic. Not a working code. This should be fine IMO. – Amit Joshi Apr 4 at 12:49
  • Added some Python code (I think). I'd like to know why the downvote? It's a simple solution that works. No weird functions or other constructs required. I didn't think an explanation was necessary, as modulo counts as basic arithmetic. IMO every developer should know what it does or should have the ability to invest 10 seconds into typing "modulo" in to the all-knowing search engine whom I shall not name. – SimonC Apr 4 at 13:02
  • @EricDuminil That was the reason I only added the pseudo-code in the first place. My point was merely that a simple solution is to use the modulo operation. AFAIK it's available in all programming languages. I provided a basic structure which resembles how to use it. – SimonC Apr 5 at 7:19
  • @EricDuminil Added Python code. – SimonC Apr 10 at 12:03

What I used to do in the past in C++ is, lets say you have these variables:

float x = 1.5;
float y = 1.0;

Then you could do something like this:

if(x == (int)x) 
    return 1;
else return 0;

This will return 0 because 1.5 is not equal to 1

if(y == (int)y) 
    return 1;
else return 0;

This will return 1 because 1.0 is equal to 1

Of course your question is about Python and the function is_integer() should work great, I just thought some people might find this useful.

  • 1
    The question was to convert a float to int whenever the float in question has an integer value. AFAIK this is not possible in C++, because you cannot return different values from a function. – M.Herzkamp Apr 4 at 11:49
  • 3
    @M.Herzkamp you could have a union though. – Baldrickk Apr 4 at 12:13
  • And also you could set another integer variable and save the float there if the condition above is met – Stefan Kostoski Apr 4 at 12:40
  • 1
    The digression on C++ isn't really relevant. You can do the same thing in Python: foo = lambda x: int(x) if int(x) == x else x. (Or in Python 3.8, to avoid the duplicate call to int, lambda x: y if (y:=int(x)) == x else x. – chepner Apr 4 at 13:11
  • 1
    filter doesn't modify the values in the list; the function is just a predicate that decides whether or not to select the original value for its output. Use map instead. – chepner Apr 5 at 11:14

A safe approach using lambda and is_integer():

>>> to_int = lambda x: int(x) if float(x).is_integer() else x
>>> to_int(1)
>>> to_int(1.0)
>>> to_int(1.2)
  • 1
    Why do you use a lambda instead of a function? Especially since you name your lambda? – Eric Duminil Apr 5 at 5:34
  • There is no special reason. I guess it just makes it easier to use everywhere else. – accdias Apr 5 at 11:23
  • 2
    Okay. I meant to say that you could use def to_int(x): return int(x) if float(x).is_integer() else x instead. A lambda is an anonymous function. So a named lambda is just a function. – Eric Duminil Apr 5 at 11:28
  • @EricDumini, I see your point. – accdias Apr 5 at 12:17
def your_function(i):
  if i.is_integer():
    return int(i)
    return float(i)
  • While this may answer the question, it would be very helpful if you could add on what is happening in there and how does it solve the problem, in order to increase the lifetime of your answer and to attract the users looking for the similar solution. – DirtyBit Apr 10 at 10:33
  • strings and floats have a function called is_integer, which returns true if it's a number, and false if anything else (including floats). So, if it's an int, return it as an int. Anything else (it's a float) and return it as a float. – xcrafter_40 Apr 11 at 1:01
  • @ xcrafter_40 not as a comment, you may edit your answer to add the explanation. :) – DirtyBit Apr 11 at 6:30

The answer to the question as it is put requires comparison of the float value. One must always avoid equality operations on floats. Some form of rounding is a valid approach.

But for this kind of use case, the decimals module is your friend. Decimals have the advantage of absolute accuracy for the values cited in the question compared to floats and also achieve completely reliable results in comparison operations.


divmod alternative:

def f(x):
    return x if divmod(x, 1)[1] else int(x)

if you looking for direct approach without using .is_integer() method?

is_integer is a method for float you can check using,

dir(float) #eg dir(1.0)

will list of methods available for float including .is_integer()

Now come to the point...

Direct Approach:

int(float_num) -> will return int so do direct comparison 

syntax: int(num) == num -> int(num) otherwise -> num

script: n = int(num) if int(num) == num else num


num = 1.5
n = int(num) if int(num) == num else num
print n
>>> 1.5

As a function,

>>> def num_con(n):
...    return int(n) if int(n) == n else n

Sample Input/output:
>>> num_con(1.0)
>>> num_con(1.5)
>>> num_con(2.5)
>>> num_con(2.0)

same way for list of numbers,

a) single line:

[int(i) if int(i) == i else i for i in [1.5,2.0,3.2,4.0,5.5]]

b) function reuse:

[num_con(i) for i in [1.5,2.0,3.2,4.0,5.5]]  #num_con is a function which we wrote on top

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