# Python and “arbitrary precision integers”

Python is supposed to have "arbitrary precision integers," according to the answer in Python integer ranges. But this result is plainly not arbitrary precision:

``````\$ python -c 'print("%d" % (999999999999999999999999/3))'
333333333333333327740928
``````

According to PEP 237, `bignum` is arbitrarily large (not just the size of C's `long` type). And Wikipedia says Python's `bignum` is arbitrary precision.

So why the incorrect result from the above line of code?

-
In my box it works as expected, even by increasing the number of 9's –  Paulo Bu Jan 9 at 21:06
Well, the problem seems to be only on Python3 and the `print` statement –  Paulo Bu Jan 9 at 21:08
Python does have arbitrary precision integers. The number your code creates is not an integer. –  delnan Jan 9 at 21:14
a mere `python3 -c "print(999999999999999999999999 / 3)"` would show you the issue immediately (it prints a float instead of integer). –  J.F. Sebastian Jan 9 at 21:42

Actually in python3 whenever you divide ints you get float as a result. There is a `//` operator that does integer division:

`````` >>> 999999999999999999999999/3
3.333333333333333e+23
>>> 999999999999999999999999//3
333333333333333333333333

>>> type(999999999999999999999999/3)
<class 'float'>
>>> type(999999999999999999999999//3)
<class 'int'>
``````

This does give the correct arbitrary precision output:

`````` python -c 'print("%d" % (999999999999999999999999//3))'
333333333333333333333333
``````

### How to write code compatible with both python 2.2+ and 3.3

This is actually simple, just add:

`````` >>> from __future__ import division
``````

this will enable 3.X division in 2.2+ code.

``````>>> from sys import version
>>> version
'2.7.6 (default, Dec 30 2013, 14:37:40) \n[GCC 4.8.2]'
>>> from __future__ import division
>>> type(999999999999999999999999//3)
<type 'long'>
>>> type(999999999999999999999999/3)
<type 'float'>
``````
-
This does give the correct arbitrary precision output: \$ python -c 'print("%d" % (999999999999999999999999//3))' 333333333333333333333333 –  Jeff Snider Jan 9 at 21:21
+1 Erased my answer `//` operator is the correct answer. –  Paulo Bu Jan 9 at 21:21
Note that the `//` operator is available since Python2.2 (released around 2001 I believe). So it's not a python3 feature. –  Bakuriu Jan 9 at 21:24
@Bakuriu I think what he meant is that in python2 `//` is assumed for `/` between two integers, whereas in python3 you need to call it explicitly. –  SethMMorton Jan 9 at 21:25
@SethMMorton Yes, but it's not really clear from the answer. One might think that, since in python2 the behaviour is different there is no `//` operator. This add a bit of complexity if someone wants to write code compatible with both versions. I just wanted to make clear that using `//` does not introduce any problem in this sense. –  Bakuriu Jan 9 at 21:27