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Here is an example:

>>> "%.2f" % 0.355
'0.35'
>>> "%.2f" % (float('0.00355') *100)
'0.36'

Why they give different result?

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Blame IEEE 754. –  Ignacio Vazquez-Abrams Jan 28 '11 at 6:37

3 Answers 3

up vote 6 down vote accepted

This isn't a format bug. This is just floating point arithmetic. Look at the values underlaying your format commands:

In [18]: float('0.00355')
Out[18]: 0.0035500000000000002

In [19]: float('0.00355')*100
Out[19]: 0.35500000000000004

In [20]: 0.355
Out[20]: 0.35499999999999998

The two expressions create different values.

I don't know if it's available in 2.4 but you can use the decimal module to make this work:

>>> import decimal
>>> "%.2f" % (decimal.Decimal('0.00355')*100)
'0.35'

The decimal module treats floats as strings to keep arbitrary precision.

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I had thought of the same, even this were, '%.2f' should have pickd up 0.35 in both cases, isn't it? –  Senthil Kumaran Jan 28 '11 at 6:47
    
@Senthil, I don't know old style formatting so well but it looks like the values are being rounded instead of truncated. I get the same the same behavior in 2.6.5 and 3.1.2 –  aaronasterling Jan 28 '11 at 6:52
    
@Senthil: No; in the first case (0.355), the actual number stored is, thanks to the usual problems with binary floating-point, just a smidgen under 0.355, so it gets rounded down. In the second case, the result of 0.00355 * 100 (no need for the float call here) is a tiny amount larger than 0.355, so gets rounded up. –  Mark Dickinson Jan 28 '11 at 10:10
2  
Indeed, floating-point formatting using % rounds rather than truncates; in versions of Python prior to 2.7, it takes this behaviour straight from the corresponding C sprintf behaviour. In more recent versions of Python, the conversion is implemented within the Python core, but still has the same 'round-to-nearest' behaviour. –  Mark Dickinson Jan 28 '11 at 10:12
    
Hi Mark, thanks for those clarifications. –  Senthil Kumaran Jan 28 '11 at 10:24

Because, as with all floating point "inaccuracy" questions, not every real number can be represented in a limited number of bits.

Even if we were to go nuts and have 65536-bit floating point formats, the number of numbers between 0 and 1 is still, ... well, infinite :-)

What's almost certainly happening is that the first one is slightly below 0.355 (say, 0.3549999999999) while the second is slightly above (say, 0.3550000001).

See here for some further reading on the subject.

A good tool to play with to see how floating point numbers work is Harald Schmidt's excellent on-line converter. This was so handy, I actually implemented my own C# one as well, capable of handling both IEEE754 single and double precision.

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Arithmetic with floating point numbers is often inaccurate.

http://en.wikipedia.org/wiki/Floating_point#Accuracy_problems

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