# range and xrange for 13-digit numbers in Python?

`range()` and `xrange()` work for 10-digit-numbers. But how about 13-digit-numbers? I didn't find anything in the forum.

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–  Mark Byers Feb 2 '10 at 19:56
What exactly are you trying to do? Why do you need such large ranges? –  Mark Byers Feb 2 '10 at 19:58
I try to solve euler-project number 15. Maybe I should ask a new question. –  kame Feb 2 '10 at 20:05
Yes, you might have trouble with the 60 second project Euler guideline this way. –  Ramashalanka Feb 2 '10 at 20:28
–  J.F. Sebastian Feb 28 '10 at 2:17

You could try this. Same semantics as range:

``````import operator
def lrange(num1, num2 = None, step = 1):
op = operator.__lt__

if num2 is None:
num1, num2 = 0, num1
if num2 < num1:
if step > 0:
num1 = num2
op = operator.__gt__
elif step < 0:
num1 = num2

while op(num1, num2):
yield num1
num1 += step

>>> list(lrange(138264128374162347812634134, 138264128374162347812634140))
[138264128374162347812634134L, 138264128374162347812634135L, 138264128374162347812634136L, 138264128374162347812634137L, 138264128374162347812634138L, 138264128374162347812634139L]
``````

Another solution would be using `itertools.islice`, as suggested in`xrange`'s documentation

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+1 for `itertools.islice` reference –  J.F. Sebastian Feb 28 '10 at 2:13

if you need enumerating integer try using itertools:

``````itertools.count(1000000000000)
``````

it should not allocate memory for a list of `1000000000000` elements

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No problems with creating the range, as long as you don't want 10**13 elements, e.g.

``````range(10**14,10**15,10**14)
``````

gives

``````[100000000000000, 200000000000000, 300000000000000, 400000000000000, 500000000000000, 600000000000000, 700000000000000, 800000000000000, 900000000000000]
``````
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This doesn't work with xrange, which only works on 32-bit numbers (on 32-bit systems). –  Glenn Maynard Feb 2 '10 at 23:55
That's true. My system is 64-bit, so xrange only works up to sys.maxint = 2^63-1 approx 10^19. –  Ramashalanka Feb 3 '10 at 0:45

I don't think it will work. Functions like `len` expect the result to fit into a 4 byte integer, due to restrictions in the cPython implementation.

In Python 3.0:

``````>>> range(9999999999999)
range(0, 9999999999999)
``````

It looks like it works, but...

``````>>> len(range(9999999999999))
Traceback (most recent call last):
File "<pyshell#2>", line 1, in <module>
len(range(9999999999999))
OverflowError: Python int too large to convert to C ssize_t
``````

See here for a related question.

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On 64-bit Python:

``````>>> xrange(9999999999999)
xrange(9999999999999)
``````

I would not use `range()` for a 13-digit number. My poor machine would not be able to hold the resultant list.

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I get 'OverflowError: long int too large to convert to int' on Python 2.5 if I try this. –  Mark Byers Feb 2 '10 at 19:54
Interesting. I'm running 2.6 here. Updated. –  Ignacio Vazquez-Abrams Feb 2 '10 at 19:55
I get `OverflowError` in 2.6.2. –  MAK Feb 2 '10 at 19:59
Ah, maybe it's because I'm running 64-bit Python then. –  Ignacio Vazquez-Abrams Feb 2 '10 at 20:01

range(x) returns a list.Python lists cant contain that many elements. You should use xrange() to iterate through those digits if you need to do trillions of cycles.?

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range() and xrange() work in recent enough versions of Python; however, in 2.5 or less you'll need to work around the int to long conversion.

``````def irange(start, stop=None, step=1):
if stop is None:
stop = long(start)
num = 1L
else:
stop = long(stop)
num = long(start)
step = long(step)
while num < stop:
yield num
num += step
``````

This isn't a complete solution (it doesn't handle negative steps), but it should get you going.

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The difference between range() and xrange() is that the first returns the entire list, while the second returns a generator that generates each number as it is needed. The second one should work for any number, no matter how large.

In Python 3.0, xrange() has disappeared and range() behaves like xrange() did previously.

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`xrange` doesn't work for arbitrarily-large numbers. –  Mike Graham Feb 3 '10 at 3:33
``````for i in xrange(2, int((n+1)**0.5)):