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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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1  
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 at 15:51

4 Answers 4

up vote 6 down vote accepted

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
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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
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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
1  
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  
+1 then. Sadly, too much overhead in python to be actually a usable solution. –  Winston Ewert Oct 14 '11 at 18:54

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))
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