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I am doing a puzzle where I have to deal with numbers of order 10^18. However, I find python isn't able to handle very large numbers in all areas.

To be specific, if we assign a = 1000000000000000000 (10^18) and do basic arithmetic calculations (+, -, /, *), its responding. However, its showing OverflowError when I use it in range()

>>> a = 1000000000000000000
>>> a/2
>>> a*2
>>> a+a
>>> a*a
>>> range(a)

Traceback (most recent call last):
  File "<pyshell#5>", line 1, in <module>
OverflowError: range() result has too many items
>>> xrange(a)

Traceback (most recent call last):
  File "<pyshell#6>", line 1, in <module>
OverflowError: Python int too large to convert to C long

I used Python 2.7.

  1. How can I handle such cases?, Whats the best way to deal with puzzles holding such numbers. (A tutorial/ book reference would be appreciated)
  2. Why Python isn't able to handle it in range()/ xrange()

I would like to do it in python 2.7 using inbuild functions. Isn't that possible?

share|improve this question
Possible duplicate… – Abhijeet Rastogi Jan 23 '12 at 13:03
I doubt you're going about solving your puzzle the right way. Counting to 10^18 with python on a computer of today would take somewhere in the order of 10000 years. – Lauritz V. Thaulow Jan 23 '12 at 13:50
@Surya What are you trying to do? You can't hope to count up to 1000000000000000000000000000000000000. That will take forever. – David Heffernan Jan 23 '12 at 14:05
There is no efficient way to count so many numbers, because there are so many of them. I think your best bet would be to update the question with a link to or description of your puzzle and ask for a hint on how to proceed. – Lauritz V. Thaulow Jan 23 '12 at 14:07
Sounds like you're dealing with a recurrence relation, and that the reason the question has such large numbers is to make sure the problem cannot be solved by brute force. I would try to solve the relation and get a forumla that directly yields the Nth number. If that fails, try to reason about which numbers may not be part of the series, so that you can exclude a large portion of the numbers you need to search. – Lauritz V. Thaulow Jan 23 '12 at 20:41
up vote 8 down vote accepted

In Python 2.x, range and xrange are limited to working with C long and your large integers are just too big for that. This limitation is simply due to the implementation choices made for range and xrange.

In Python 3.x the limitation has been removed and you can perform range() with very large integers.

>>> range(2**128)
range(0, 340282366920938463463374607431768211456)

The official list of changes for Python 3 has this to say:

range() now behaves like xrange() used to behave, except it works with values of arbitrary size. The latter no longer exists.

In Python 2.x the range() function returned a list. Clearly there's no hope of allocating memory for all the elements for very large ranges. The xrange() function returns an xrange object. The documentation describes it as "an opaque sequence type which yields the same values as the corresponding list, without actually storing them all simultaneously". The documentation goes on to say this:

xrange() is intended to be simple and fast. Implementations may impose restrictions to achieve this. The C implementation of Python restricts all arguments to native C longs (“short” Python integers), and also requires that the number of elements fit in a native C long.

This explains the limitations in Python 2.x.

I'm not quite sure what you can usefully do with the new Python 3 support for very large ranges. For example, I would not recommend you try this:

2**128 in range(2**128)

That will run for a long time.

You indicate in the comments that you are writing code to count up to a large number. You can do this trivially in Python with code like this:

i = 0
while i<N:
    i += 1

But you will discover that if N is a large number then this will take a very long time. There's not any getting around that for values of N of the order 218 as per your question.

share|improve this answer
I think I should find another way for the solution as reaching N is typically impossible. – Surya Jan 23 '12 at 15:37
That's right. You can't expect to count to 2^18. – David Heffernan Jan 23 '12 at 15:38
Minor: in modern Python 3, 2**128 in range(2**128) will run instantly because __contains__ has been special-cased. – DSM Dec 29 '14 at 20:53

Your problem is that range() in Python 2.7 constructs an explicit list of every value in the range - you simply don't have enough resources to construct such a list.

Python 3 corrects this behaviour - and only calculates the values on demand... as if by a generator expression.

The Python 2 xrange() function isn't going to help you as it is constrained to register values... which was a compromise for Python 2 to avoid the huge overhead of range() for any numbers that are not trivially small.

One approach might be to define your own generator which iterates over arbitrary integers - something like:

def genrange(min,max,stride=1):
    while val<max:
        yield val

My suspicion, however, is that this is probably a mistake in the bigger scheme of things - as you're unlikely to have sufficient processing resources to iterate through every value in a 32 bit integer - let alone for an integer range larger than that of a (32bit) register. I suspect there's a better way to address your problem which doesn't depend upon a range in the first place.

share|improve this answer
This could be a way (may not be efficient) to have a function like range(). However, I could have straight away used while() rather than putting it in a function. I think it would even reduce time complexity. (Not sure) – Surya Jan 23 '12 at 13:54

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