I get a float by dividing two numbers. I know that the numbers are divisible, so I always have an integer, only it's of type float. However, I need an actual int type. I know that int() strips the decimals (i.e., floor rounding). I am concerned that since floats are not exact, if I do e.g. int(12./3) or int(round(12./3)) it may end up as 3 instead of 4 because the floating point representation of 4 could be 3.9999999593519561 (it's not, just an example).

Will this ever happen and can I make sure it doesn't?

(I am asking because while reshaping a numpy array, I got a warning saying that the shape must be integers, not floats.)

  • 4
    why don't you simply use integer division? – lejlot Nov 25 '15 at 13:44
  • Yeah I just thought of that right after I posted. Was about to update the question, but I'll let your comment do the talking instead. – cmeeren Nov 25 '15 at 13:45
  • Though, if I do e.g. 3.5/0.5 then that's not possible. (I don't, I divide two integers, but for the sake of argument...) – cmeeren Nov 25 '15 at 13:46
  • 1
    Casting a float to an int will always return the int you expect if your expectations are tuned to the semantics of the language. How can we possibly know if your expectations match the semantics of the language since you don't explain what your expectations are? – John Coleman Nov 25 '15 at 13:57
  • @JohnColeman, thanks, I updated the title now. I think the meaning came through adequately in the question when looking at the example but one can never be too clear, and the title was vague. – cmeeren Nov 25 '15 at 13:59

Casting a float to an integer truncates the value, so if you have 3.999998, and you cast it to an integer, you get 3.

The way to prevent this is to round the result. int(round(3.99998)) = 4, since the round function always return a precisely integral value.

  • How can the round function return a precisely integral value when it returns a float? – cmeeren Nov 25 '15 at 13:53
  • A float is like decimal number with limited length, except with binary digits instead of digits 0-9. It can hold integer values precisely, like 3453.0. There are lots of numbers it can't hold precisely, like 1/3 = 0.3333..., because its length is limited. – Matt Timmermans Nov 25 '15 at 13:55
  • 1
    @cmeeren: The thrust of this answer is correct, for your stated question. It's true that round will not give "intuitive" results where the float value is close to a rounding boundary, such as round(2.675, 2) (this example is given right in the documentation). But your question specifically stipulates that you know your values should be integral, and these will round as expected. – John Y Nov 25 '15 at 14:13

Rounding can be simulated by adding 0.5 to the value in question. For example:

>>> int(3.4)
>>> int(3.7)
>>> int(3.4 + 0.5)  # 3.9
>>> int(3.7 + 0.5)  # 4.2
  • In C, adding 0.5 to round a number fails for 1) many negative numbers, 2) The number just smaller than 0.5, 3) many floatnumbers with ULP of 0.5 4) many float value with ULP of 1.0. Suspect similar troubles with python. – chux - Reinstate Monica Nov 25 '15 at 14:08
  • None of these special cases are generated by the OP's code. – chepner Nov 25 '15 at 14:19

I ended up using integer division (a//b) since I divided integers. Wouldn't have worked if I divided e.g. 3.5/0.5=7 though.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.