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I just asked about why python gives value of 3.3 - 1.1 is 2.1999999999999997. I think because 3.3 or 1.1 represented in base 2, isn't it? At least my opinion was right http://docs.python.org/2/tutorial/floatingpoint.html. But in this case 3.3 and 1.1 cannot be represented exactly as binary fractions, so the answer is approximately not exact. But, why python gives 3.3 + 1.1 = 4.4, while 3.3 - 1.1 = 2.1999999999999997, why not it gives 4.3999999999997 in instance?

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2 Answers 2

up vote 4 down vote accepted

The 4.4 is in fact not exact either. You just need to print it with higher precision to see this:

In [2]: '%.20f' % (3.3 + 1.1)
Out[2]: '4.40000000000000035527'
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Okay, I see it, but why 3.3 - 1.1 printed 2.1999999999999997 not 2.2 ? –  Yagami Dec 7 '13 at 15:44
    
I think we don't need to overcome this problem, maybe the python program works like that, at least I know that 4.4 is 4.40000000000000035527, but if you've opinion, please comment. –  Yagami Dec 7 '13 at 15:50
    
Because Python prints the shortest decimal string that will reproduce the binary float exactly when read back in. 2.2 == 2.1999999999999997 is False. –  Tim Peters Dec 7 '13 at 15:50
1  
@Yagami: because 4.4 == 3.3+1.1 -- the float you get from 3.3+1.1 is the same float you get from 4.4. OTOH, you float you get from 3.3-1.1 isn't the same float you get from 2.2-- (3.3-1.1) - 2.2 ~ -4.44e-16. Python makes some efforts to show the minimum representation if that's not lossy (work by @Mark-Dickinson, IIRC.) –  DSM Dec 7 '13 at 15:52
1  
Yes, Python produces the shortest decimal string exactly reproducing the binary float - not "some efforts", heroic efforts - it's very hard to do this "reasonably fast". Mark ported David Gay's famously complicated library for this conversion. BTW, Mark and David are both mathematicians - don't try this on your own ;-) –  Tim Peters Dec 7 '13 at 15:55

To see the exact value corresponding to a binary float, use the decimal module. For example,

>>> import decimal
>>> decimal.Decimal(3.3 + 1.1)
Decimal('4.4000000000000003552713678800500929355621337890625')

Note the asymmetry: while most decimal floats cannot be exactly represented as binary floats, all binary floats can be represented exactly as decimal floats. This is "basically because" 0.1 binary is exactly 0.5 decimal, but 0.1 decimal cannot be exactly expressed as a (finite) binary float.

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