# python long number data loss

i am just starting with python (python3) because i read its good for the euler project since it can handle very big numbers.

now i am struggling with a quite simple problem of converting float to int. Why don't i get the same result for this:

``````num =  6008514751432349174082765599289028910605977570

print('num     {0} '.format(int(num)))

num = num / 2
print('num /2  {0} '.format(int(num)))

num = num * 2
print('num *2  {0} '.format(int(num)))
``````

output for this is:

``````num     6008514751432349174082765599289028910605977570
num /2  3004257375716174771611310192874715313222975488
num *2  6008514751432349543222620385749430626445950976
``````
-

You are using float division, which cannot handle large numbers with as much precision, after which you are flooring the result by casting it back to an `int()`.

Don't do that, that causes data loss. Use integer (floor) division with `//` instead:

``````>>> 6008514751432349174082765599289028910605977570 // 2 * 2
6008514751432349174082765599289028910605977570
``````

This still can lead to rounding errors of course, if the input value is not divisible by 2 without flooring:

``````>>> 6008514751432349174082765599289028910605977571 // 2 * 2
6008514751432349174082765599289028910605977570
``````

but floating point values are limited in precision based on your exact CPU support; see `sys.float_info` to see what exact limitations your platform imposes on float numbers.

On my Mac, `sys.float_info.dig` tells me my platform supports 15 digits of precision, but you are dividing a 46-digit integer number. This means that you throw away the bottom 30 digits from your large integer when using float division:

``````>>> len(str(int(6008514751432349174082765599289028910605977570 / 2) - (6008514751432349174082765599289028910605977570 // 2)))
30
``````

That is a lot of precision loss there. :-)

-
ah, perfect. thanks –  santa May 2 at 15:37
@MartijnPieters when does someone use `//` instead of `/`? –  dustin May 2 at 15:44
@dustin: when you want to apply integer division (so the result being an `int`) instead of a floating point value. –  Martijn Pieters May 2 at 15:46
@dustin: When you are working with integer values with more digits than the number of digits your platform can support (see `sys.float_info.dig`) then you'll see precision loss when you use float division. –  Martijn Pieters May 2 at 15:53