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# Simulating integer overflow in Python

Python 2 has two integer datatypes `int` and `long`, and automatically converts between them as necessary, especially in order to avoid integer overflow.

I am simulating a C function in Python and am wondering if there are standard ways to re-enable integer overflow. For the nonce, I've used

``````overflow_point = maxint + 1
if value > overflow_point:
value -= 2 * overflow_point
``````

Is there a more standard way to do the same thing?

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You could create your own number data type (class) that defines how addition, subtraction, multiplication, and division are performed. – Noctis Skytower Oct 14 '11 at 17:51
What is your aim with this? Modulo-semantics or C-semantics including undefined behavior? – dornhege Jun 21 '14 at 15:51

I think the basic idea is sound, but needs some tweaks:

1. your function doesn't overflow on `sys.maxint+1`, but it should;
2. `sys.maxint` can be exceeded several times over as a result of a single operation;
3. negative values below `-sys.maxint-1` also need to be considered.

With this in mind, I came up with the following:

``````import sys

def int_overflow(val):
if not -sys.maxint-1 <= val <= sys.maxint:
val = (val + (sys.maxint + 1)) % (2 * (sys.maxint + 1)) - sys.maxint - 1
return val
``````
-

This function should convert your numbers to look like hardware integers. Depending on your application, you might need to apply this function between each stage of your operations.

``````def correct(value, bits, signed):
base = 1 << bits
value %= base
return value - base if signed and value.bit_length() == bits else value
``````

The following shortcut functions may come in handy for "casting" values to their appropriate range:

``````char, word, dword, qword, byte, sword, sdword, sqword = (
lambda v: correct(v, 8, True), lambda v: correct(v, 16, True),
lambda v: correct(v, 32, True), lambda v: correct(v, 64, True),
lambda v: correct(v, 8, False), lambda v: correct(v, 16, False),
lambda v: correct(v, 32, False), lambda v: correct(v, 64, False))
``````
-

Does your function use division or right bit-shifting? If not then you don't need to worry about overflows at each stage of the calculation because you will always get the "correct" answer modulo 2^32 or 2^64. Before returning the result (or before doing division or right bit-shifting) you can normalize back to the standard integer range using something like

``````import sys

HALF_N = sys.maxint + 1
N = HALF_N * 2

def normalize(value):
return (value + HALF_N) % N - HALF_N
``````
-

I don't know that there's a convenient way to do this natively because it's not normally considered a problem, so it's not something the python devs would want to build in. I think the way you're doing it is fine. You could even subclass the `int` built-in type and override the `__add__()`, `__sub__()`, etc operator methods to include your functionality, but that might be overkill.

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What would overloading `__setattr__` accomplish? You never set attributes on ints. – Winston Ewert Oct 14 '11 at 17:53
Edited to clarify my intention. The subclass could override __add__() to use the new __sertattr__() functionality, which would set whatever attribute holds the int value. It's major overkill of course. – andronikus Oct 14 '11 at 18:05
int objects are supposed to be immutable. `__add__` should return a new object not set any attributes. – Winston Ewert Oct 14 '11 at 18:25
Ah, OK, good point. So maybe it could calculate the overflowed value and return that. I'll make that change. Thanks for the feedback, I'm rusty on python reflection :) – andronikus Oct 14 '11 at 18:27
+1 then. Sadly, too much overhead in python to be actually a usable solution. – Winston Ewert Oct 14 '11 at 18:54