8

This question already has an answer here:

I am using numpy like this code

>>>import numpy as np
>>>a=np.arange(1,100000001).sum()
>>>a
987459712

I guess the result must be some like 5000000050000000

I noticed that until five numbers the result is ok. Does someone knows what is happened?

regards

marked as duplicate by Divakar numpy Apr 4 '17 at 15:10

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • np a=np.arange(1,100000001).sum() – Horus Ricardo Junoy Apr 4 '17 at 13:59
  • edited your question to include proper formating for code (high the code parts on a new line and hit ctrl+k – MooingRawr Apr 4 '17 at 14:00
  • Cannot reproduce in python 2.7 with numpy@1.11.2 or python3.5 and numpy@1.12.0. What are you using? – Jblasco Apr 4 '17 at 14:10
  • Also, changing the title of the question to something more precise would be a good idea... – Jblasco Apr 4 '17 at 14:11
  • Yes, if you do a=np.arange(1,100000001).sum() it gives 5000000050000000 as result – Sembei Norimaki Apr 4 '17 at 14:16
9

Numpy is not doing a mistake here. This phenomenon is known as integer overflow.

x = np.arange(1,100000001)
print(x.sum())  # 987459712
print(x.dtype)  # dtype('int32')

The 32 bit integer type used in arange for the given input simply cannot hold 5000000050000000. At most it can take 2147483647.

If you explicitly use a larger integer or floating point data type you get the expected result.

a = np.arange(1, 100000001, dtype='int64').sum()
print(a)  # 5000000050000000

a = np.arange(1.0, 100000001.0).sum()
print(a)  # 5000000050000000.0
  • Sounds like a "mistake" to me, especially in Python where long integers are used as necessary. Sure numpy does its own arithmetic, but as a numeric package it should be better at dealing with computations, not worse. – alexis Apr 4 '17 at 15:02
  • @alexis I don't think this is a mistake because it is documented behavior. The docs say that by default arange infers the data type from the input. Since 100000001 is small enough it seems reasonable to use int32. Actually, since I work on 32bit Python and use integer arrays primarily for indexing I do appreciate that it uses a pointer-sized data type by default. – kazemakase Apr 4 '17 at 15:31
5

I suspect you are using Windows, where the data type of the result is a 32 bit integer (while for those using, say, Mac OS X or Linux, the data type is 64 bit). Note that 5000000050000000 % (2**32) = 987459712

Try using

a = np.arange(1, 100000001, dtype=np.int64).sum()

or

a = np.arange(1, 100000001).sum(dtype=np.int64)

P.S. Anyone not using Windows can reproduce the result as follows:

>>> np.arange(1, 100000001).sum(dtype=np.int32)
987459712
  • Nice observation that this is Windows specific! – kazemakase Apr 4 '17 at 14:37
  • Tx you so much! Solved my question! – Horus Ricardo Junoy Apr 6 '17 at 14:08

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