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x = [1, 2, 3, ... ]

The sum of x is 2165496761, which is larger than the limit of 32bit integer So sum(x) returns -2129470535.

How can I get the correct value by converting it to long integer?

import math, csv, sys, re, time, datetime, pickle, os, gzip  #fileinput
import cStringIO
from numpy import *
from collections import *
from copy import deepcopy
from scipy import stats
from scipy.stats import norm
from LatLongUTMconversion import *
from datetime import datetime
from pytz import timezone
import pytz
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Python can handle arbitrarily large numbers; what is your code? –  Martijn Pieters Oct 3 '12 at 19:49
My code is y=sum(x) –  notilas Oct 3 '12 at 19:49
..and what is "x"? –  Gerrat Oct 3 '12 at 19:50
Yet another reason to not use import *... –  delnan Oct 3 '12 at 19:57
@notilas No, import * was the reason! You got bit by it once, now never do it again. –  Lukas Graf Oct 3 '12 at 20:01

3 Answers 3

up vote 1 down vote accepted

The reason why you get this invalid value is that you're using np.sum on a int32. Nothing prevents you from not using a np.int32 but a np.int64 or np.int128 dtype to represent your data. You could for example just use


On a side note, please make sure that you never use from numpy import *. It's a terrible practice and a habit you must get rid of as soon as possible. When you use the from ... import *, you might be overwriting some Python built-ins which makes it very difficult to debug. Typical example, your overwriting of functions like sum or max...

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Twenty quatloos says you're using numpy's sum function:

>>> sum(xrange(10**7))
>>> from numpy import sum
>>> sum(xrange(10**7))

So I'd bet you did from numpy import * or are using some interface which does the equivalent.

To verify this, try

print type(sum(x))

On the example posted elsewhere in this thread:

>>> sum([721832253, 721832254, 721832254])
>>> type(sum([721832253, 721832254, 721832254]))
<type 'numpy.int32'>

Edit: somebody owes me twenty quatloos! Either don't use the star import (best), manually set the dtype:

>>> sum([721832253, 721832254, 721832254],dtype=object)

or refer to the builtin sum explicitly (possibly giving it a more convenient binding):

>>> __builtins__.sum([721832253, 721832254, 721832254])
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...doesn't appear to be any quatloos counter we can upvote...probably a worthwhile enhancement to SO. –  Gerrat Oct 3 '12 at 20:01

Python handles large numbers with arbitrary precision:

>>> sum([721832253, 721832254, 721832254])

Just sum them up!

To make sure you don't use numpy.sum, try __builtins__.sum() instead.

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mine returns -2129470535. Windows 64 machine –  notilas Oct 3 '12 at 19:51
@notilas: Then your x is not what you expected it to be. Python integer support is platform independent. –  Martijn Pieters Oct 3 '12 at 19:52
I have copied and pasted your text to my machine. "sum([721832253, 721832254, 721832254])", it returns a negative value. –  notilas Oct 3 '12 at 19:54

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