# Maximum and Minimum values for ints

I am looking for minimum and maximum values for integers in python. For eg., in Java, we have `Integer.MIN_VALUE` and `Integer.MAX_VALUE`. Is there something like this in python?

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Note that in Python 3 the `int` type is basically the same as the `long` type in Python 2, so the idea of a maximum or minimum `int` disappears completely. It's basically irrelevant even on Python 2. –  agf Sep 30 '11 at 1:42
@agf: it can be relevant in various way. For instance in any algorithm that require to save the min value found (like a sorting algorithm). The min value could be initialized at sys.maxint so it guarantees that any first value found is taken as min –  Toaster Jan 9 at 15:30
@Toaster except that you can have a list where all values are greater than `sys.maxint` since it's only the maximum for the `int` type on Python 2, which Python will silently promote to a `long`. –  agf Jan 9 at 16:17

In Python 2, there's `sys.maxint`:

``````>>> sys.maxint
9223372036854775807
``````

And you can calculate the minimum value with `-sys.maxint - 1` as seen here. Of course Python just switches from plain to long integers once you exceed this value.

In Python 3 this value has no significance at all for integers. (However, it's still available as `sys.maxsize`, in case you need to get the machine's word size.)

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This number may appear to be arbitrary, but it isn't. 9223372036854775807 is exactly `2^63 - 1`, so you've got a 64-bit int. In general, an n-bit integer has values ranging from `-2^(n-1)` to `2^(n-1) - 1`. –  NullUserException Sep 30 '11 at 1:18
Note that if you're using a 32-bit Python runtime, sys.maxint will return `2^31 - 1`, even though Python will jump to 64-bit seamlessly with the `long` datatype. –  Scott Stafford Feb 26 at 16:19

In Python integers will automatically switch from a fixed-size `int` representation into a variable width `long` representation once you pass the value `sys.maxint`, which is either 231 - 1 or 263 - 1 depending on your platform. Notice the `L` that gets appended here:

``````>>> 9223372036854775807
9223372036854775807
>>> 9223372036854775808
9223372036854775808L
``````

From the Python manual:

Numbers are created by numeric literals or as the result of built-in functions and operators. Unadorned integer literals (including binary, hex, and octal numbers) yield plain integers unless the value they denote is too large to be represented as a plain integer, in which case they yield a long integer. Integer literals with an `'L'` or `'l'` suffix yield long integers (`'L'` is preferred because `1l` looks too much like eleven!).

Python tries very hard to pretend its integers are mathematical integers and are unbounded. It can, for instance, calculate a googol with ease:

``````>>> 10**100
10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000L
``````
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To add to the confusion, Python's `long` isn't like Java's `long` - it's rather closer to `BigInteger`. –  NullUserException Sep 30 '11 at 1:20