I have two integer values a and b, but I need their ratio in floating point. I know that a < b and I want to calculate a / b, so if I use integer division I'll always get 0 with a remainder of a.

How can I force c to be a floating point number in Python in the following?

c = a / b

11 Answers 11


In Python 2, division of two ints produces an int. In Python 3, it produces a float. We can get the new behaviour by importing from __future__.

>>> from __future__ import division
>>> a = 4
>>> b = 6
>>> c = a / b
>>> c
  • 11
    Note that from __future__ import division must be at the very beginning of the file – yannis Aug 20 '17 at 17:50
  • Also the problem is if you want the integer division in one place but the float division in another place of the file... – mercury0114 Jul 23 at 10:26

You can cast to float by doing c = a / float(b). If the numerator or denominator is a float, then the result will be also.

A caveat: as commenters have pointed out, this won't work if b might be something other than an integer or floating-point number (or a string representing one). If you might be dealing with other types (such as complex numbers) you'll need to either check for those or use a different method.


How can I force division to be floating point in Python?

I have two integer values a and b, but I need their ratio in floating point. I know that a < b and I want to calculate a/b, so if I use integer division I'll always get 0 with a remainder of a.

How can I force c to be a floating point number in Python in the following?

c = a / b

What is really being asked here is:

"How do I force true division such that a / b will return a fraction?"

Upgrade to Python 3

In Python 3, to get true division, you simply do a / b.

>>> 1/2

Floor division, the classic division behavior for integers, is now a // b:

>>> 1//2
>>> 1//2.0

However, you may be stuck using Python 2, or you may be writing code that must work in both 2 and 3.

If Using Python 2

In Python 2, it's not so simple. Some ways of dealing with classic Python 2 division are better and more robust than others.

Recommendation for Python 2

You can get Python 3 division behavior in any given module with the following import at the top:

from __future__ import division

which then applies Python 3 style division to the entire module. It also works in a python shell at any given point. In Python 2:

>>> from __future__ import division
>>> 1/2
>>> 1//2
>>> 1//2.0

This is really the best solution as it ensures the code in your module is more forward compatible with Python 3.

Other Options for Python 2

If you don't want to apply this to the entire module, you're limited to a few workarounds. The most popular is to coerce one of the operands to a float. One robust solution is a / (b * 1.0). In a fresh Python shell:

>>> 1/(2 * 1.0)

Also robust is truediv from the operator module operator.truediv(a, b), but this is likely slower because it's a function call:

>>> from operator import truediv
>>> truediv(1, 2)

Not Recommended for Python 2

Commonly seen is a / float(b). This will raise a TypeError if b is a complex number. Since division with complex numbers is defined, it makes sense to me to not have division fail when passed a complex number for the divisor.

>>> 1 / float(2)
>>> 1 / float(2j)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: can't convert complex to float

It doesn't make much sense to me to purposefully make your code more brittle.

You can also run Python with the -Qnew flag, but this has the downside of executing all modules with the new Python 3 behavior, and some of your modules may expect classic division, so I don't recommend this except for testing. But to demonstrate:

$ python -Qnew -c 'print 1/2'
$ python -Qnew -c 'print 1/2j'
  • 2
    "1 // 2 = 0", "1 // 2.0 = 0.0" -- interesting little gotcha, even if it's an integer division, if any of the operands is float then the result is a whole number but also float. I was using an integer division to calculate a list index and getting an error because of that. – R. Navega Dec 16 '18 at 20:46
c = a / (b * 1.0)

In Python 3.x, the single slash (/) always means true (non-truncating) division. (The // operator is used for truncating division.) In Python 2.x (2.2 and above), you can get this same behavior by putting a

from __future__ import division

at the top of your module.


Just making any of the parameters for division in floating-point format also produces the output in floating-point.


>>> 4.0/3


>>> 4 / 3.0


>>> 4 / float(3)


>>> float(4) / 3
  • 4
    But you might later be tempted to do 1.0 + 1/3 or float(c) + a/b or float(a/b) and you'll be disappointed with the answer. Better to use python 3+ or import the __future__.division module, (see accepted answer), to always get the answer you expect. The existing division rules create insidious, hard-to-trace math error. – hobs Sep 23 '11 at 4:47
  • @JoeCondron Did you try python -c 'a=10; b=3.0; print a/b'? – gsbabil Sep 18 '15 at 18:51
  • I didn't have to because it obviously works in this scenario. However, what if a and 'b', e.g., are the outputs of an integer-value function? E.g., a = len(list1), b = len(list2). – JoeCondron Sep 18 '15 at 20:44
  • @JoeCondron: good point. I just updated the answer to include float(..). I think multiplying by 1.0, as @Pinochle suggested below, could also be useful. – gsbabil Sep 18 '15 at 21:18

Add a dot (.) to indicate floating point numbers

>>> 4/3.
  • 2
    How are you going to apply this approach if the numerator and denominator are both variables? – stackoverflowuser2010 Aug 12 '16 at 19:03
  • I assume you refer to the first example, if that is so , i would just use float() on one of the variables. – Alexander Aug 13 '16 at 20:00

This will also work

>>> u=1./5
>>> print u
  • 3
    And how are you going to apply this approach if the numerator and denominator are both variables? – stackoverflowuser2010 Aug 12 '16 at 19:02
  • 1
    Because it doesn't work when variables are used for abstraction. Almost no meaningful code has values hardcoded like that. – Keir Simmons Mar 2 '17 at 6:01
  • 1
    This has little votes because this answer doesn't answer the question, and isn't a general answer at all. In an answer it's also important first to show why this works. It's very simple: if the numerator or denominator is a float, the result will be a float. Usually you don't use python as a plaintext calculator, so you want an answer for variables a and b. – TimZaman Aug 7 '17 at 8:51

If you want to use "true" (floating point) division by default, there is a command line flag:

python -Q new foo.py

There are some drawbacks (from the PEP):

It has been argued that a command line option to change the default is evil. It can certainly be dangerous in the wrong hands: for example, it would be impossible to combine a 3rd party library package that requires -Qnew with another one that requires -Qold.

You can learn more about the other flags values that change / warn-about the behavior of division by looking at the python man page.

For full details on division changes read: PEP 238 -- Changing the Division Operator

from operator import truediv

c = truediv(a, b)
  • 2
    That's not ideal, though, since it doesn't work in the case where a is an int and b is a float. A better solution along the same lines is to do from operator import truediv and then use truediv(a, b). – Mark Dickinson Sep 18 '15 at 12:39
  • Yeah you're right. I was assuming both integers as this is the only time when the division ops differ but you really want a general solution. I didn't actually know you could import the operator or that it doesn't work at all for float divisors. Answer edited. – JoeCondron Sep 18 '15 at 14:17
from operator import truediv

c = truediv(a, b)

where a is dividend and b is the divisor. This function is handy when quotient after division of two integers is a float.

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