# Python: How to manage rounding behavior between float and int?

What is the best way to avoid a rounding problem when doing:

``````>>> a =8.92138
>>> a
8.92138
>>> int(a*100000)
892137
``````

Decimal gives me

``````>>> Decimal(a)
Decimal('8.921379999999999199644662439823150634765625')
``````
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I don't really get the downvote - what's wrong with the question? –  LarsVegas Aug 23 '13 at 14:25
I didn't downvote. –  Joel Cornett Aug 23 '13 at 14:31
You have not really explained what rounding problem you think you are having. Using floating-point arithmetic is implicitly saying “I want to use arithmetic with approximations for results that are not exactly representable.” Converting directly to integer is implicitly saying “I want to convert with hard boundaries at the integers; chop away any fractional parts.” So you are saying contradictory things: Use approximations to stay close to the mathematical answer but discard fractions to move away from the mathematical answer. To resolve this, we need to know what you really want to calculate. –  Eric Postpischil Aug 23 '13 at 14:36
For example, why are you converting to integer? You had a perfectly reasonable floating-point value; why convert it to integer and discard its fractional part? And why not round it to integer instead of converting it (which uses truncation)? –  Eric Postpischil Aug 23 '13 at 14:37
@LarsVegas: Convert from a string to a float. Perform arithmetic, such as multiplying by 100000. Convert from a float to a string. Do not involve integers at all. –  Eric Postpischil Aug 23 '13 at 15:05

`int` does not round -- it finds the floor (truncates the fractional part).

``````>>> n = 8.92138
>>> '%.42f' % n   # what n really is
'8.921379999999999199644662439823150634765625'
>>> 100000 * n # result is slightly lower than 892138
892137.9999999999
>>> int(100000 * n) # int takes the floor
892137
``````
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That was useful. Thanks. –  LarsVegas Aug 23 '13 at 14:44

Use the Decimal from the beginning if possible:

``````>>> a = Decimal('8.92138')
>>> int(a * 100000)
892138
``````

To round use Decimal.quantize

``````>>> a = 8.92138
>>> Decimal(a) * 100000
Decimal('892137.9999999999199644662440')
>>> (Decimal(a) * 100000).quantize(1)
Decimal('892138')

>>> str(a)
'8.92138'
>>> int(Decimal(str(a)) * 100000)
892138
``````
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We are not talking about a `str` but a `float`. If you do `a = Decimal(8.92138)` you still end up with the same problem. –  LarsVegas Aug 23 '13 at 14:22
@LarsVegas, Using `float`, you can't get exact value. I updated the code. –  falsetru Aug 23 '13 at 14:33
@LarsVegas Yes, you do, which is why you shouldn't be using a float in the first place. Once you have a float, it's too late. You can't get back an exact value from an inexact value. –  sepp2k Aug 23 '13 at 14:36
@LarsVegas, I'm not talking about `str`, neither. ;) –  falsetru Aug 23 '13 at 14:36
`Decimal` is not a catch-all answer. You need to know what calculations are going to be performed. `Decimal` is no more exact than binary floating point when there is division by numbers other than powers of ten, when there are various “scientific” functions such as sine or logarithm, et cetera. –  Eric Postpischil Aug 23 '13 at 14:39