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Could anyone explain me this pice of code:

>>> round(0.45, 1)
0.5
>>> round(1.45, 1)
1.4
>>> round(2.45, 1)
2.5
>>> round(3.45, 1)
3.5
>>> round(4.45, 1)
4.5
>>> round(5.45, 1)
5.5
>>> round(6.45, 1)
6.5
>>> round(7.45, 1)
7.5
>>> round(8.45, 1)
8.4
>>> round(9.45, 1)
9.4

Updated

I guess it is because of floating representation. Am I right?

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Same phenomenon in 2.7.2 –  frickskit Mar 31 '13 at 17:05
1  
Related: stackoverflow.com/questions/10825926/…. The answer is here: stackoverflow.com/a/10093820/1258041 –  Lev Levitsky Mar 31 '13 at 17:08
    
@SperanskyDanil You're right, sorry, this is not the same –  Lev Levitsky Mar 31 '13 at 17:40

2 Answers 2

up vote 7 down vote accepted

You are right. None of the numbers can be represented exactly. In some cases the fractional part is strictly greater than 0.45 and in some it is strictly less:

In [4]: ['%.20f' % val for val in (0.45, 1.45, 2.45, 3.45, 4.45, 5.45, 6.45, 7.45, 8.45, 9.45)]
Out[4]: 
['0.45000000000000001110',
 '1.44999999999999995559',
 '2.45000000000000017764',
 '3.45000000000000017764',
 '4.45000000000000017764',
 '5.45000000000000017764',
 '6.45000000000000017764',
 '7.45000000000000017764',
 '8.44999999999999928946',
 '9.44999999999999928946']

This explains the seemingly inconsistent rounding.

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as NPE said the binary representation of a decimal number is not exact,so you can get strange behaviour from rounding ,a module that solves this problem is decimal, Here is the official documentation

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