round() in Python doesn't seem to be rounding properly

The documentation for the round() function states that you pass it a number, and the positions past the decimal to round. Thus is should do this:

``````n = 5.59
round(n, 1) # 5.6
``````

But, in actuality, good old floating point weirdness creeps in and you get:

``````5.5999999999999996
``````

For the purposes of UI, I need to display '5.6'. I poked around the Internet and found some documentation that this is dependent on my implementation of Python. Unfortunately, this occurs on both my Windows dev machine and each Linux server I've tried. See here also.

Short of creating my own round library, is there any way around this?

Update: Ok, string formatting. Sometimes, it's just a really simple answer. Thanks everyone.

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can't help the way it's stored, but at least formatting works correctly:

``````'%.1f' % round(n, 1) # gives you '5.6'
``````
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For my purposes, that's all I need. Thank you! –  swilliams Sep 11 '08 at 15:15

Formatting works correctly even without having to round:

``````"%.1f" % n
``````
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This answer needs more votes. –  Prof. Falken Nov 13 '12 at 9:47
According to the docs, this style of string formatting will eventually go away. The new-style format would be `"{:.1f}".format(n)` –  whereswalden Aug 7 at 12:56

`round(5.59, 1)` is working fine. The problem is that 5.6 cannot be represented exactly in binary floating point.

``````>>> 5.6
5.5999999999999996
>>>
``````

As Vinko says, you can use string formatting to do rounding for display.

Python has a module for decimal arithmetic if you need that.

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You get '5.6' if you do `str(round(n, 1))` instead of just `round(n, 1)`.

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Floating point math is vulnerable to slight, but annoying, precision inaccuracies. If you can work with integer or fixed point, you will be guaranteed precision.

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You can switch the data type to a integer:

``````>>> n = 5.59
>>> int(n * 10) / 10.0
5.5
>>> int(n * 10 + 0.5)
56
``````

And then display the number by inserting the locale's decimal separator.

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printf the sucker.

``````print '%.1f' % 5.59  # returns 5.6
``````
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Take a look at the Decimal module

Decimal “is based on a floating-point model which was designed with people in mind, and necessarily has a paramount guiding principle – computers must provide an arithmetic that works in the same way as the arithmetic that people learn at school.” – excerpt from the decimal arithmetic specification.

and

Decimal numbers can be represented exactly. In contrast, numbers like 1.1 and 2.2 do not have an exact representations in binary floating point. End users typically would not expect 1.1 + 2.2 to display as 3.3000000000000003 as it does with binary floating point.

Decimal provides the kind of operations that make it easy to write apps that require floating point operations and also need to present those results in a human readable format, e.g., accounting.

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You can use the string format operator `%`, similar to sprintf.

``````mystring = "%.2f" % 5.5999
``````
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If you use the Decimal module you can approximate without the use of the 'round' function. Here is what I've been using for rounding especially when writing monetary applications:

``````Decimal(str(16.2)).quantize(Decimal('.01'), rounding=ROUND_UP)
``````

This will return a Decimal Number which is 16.20.

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It's a big problem indeed. Try out this code:

``````print "%.2f" % (round((2*4.4+3*5.6+3*4.4)/8,2),)
``````

It displays 4.85. Then you do:

``````print "Media = %.1f" % (round((2*4.4+3*5.6+3*4.4)/8,1),)
``````

and it shows 4.8. Do you calculations by hand the exact answer is 4.85, but if you try:

``````print "Media = %.20f" % (round((2*4.4+3*5.6+3*4.4)/8,20),)
``````

you can see the truth: the float point is stored as the nearest finite sum of fractions whose denominators are powers of two.

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``````round(n,1)+epsilon