Rounding logic in Python? [duplicate]

In my original code I was trying to compute some indices out of some float values and I faced the following problem:

>>> print int((1.40-.3)/.05)
21

But:

>>> print ((1.40-.3)/.05)
22.0

I am speechless about what is going on. Can somebody please explain?

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marked as duplicate by Aprillion, KillianDS, David Pope, ArtB, Daniel LisikJun 1 at 0:36

Why did I get a minus vote now?? –  Cupitor May 31 at 13:43
I balanced it for you, Cupitor. +1. –  Aaron Hall May 31 at 13:59
@AaronHall, Thank you. I agree specially because of answers (e.g. the point about print by @delnan). –  Cupitor May 31 at 14:09

This is caused by floating point inaccuracy:

>>> print repr((1.40-.3)/.05)
21.999999999999996

You could try using the Decimal type instead:

>>> from decimal import Decimal
>>> Decimal
<class 'decimal.Decimal'>

and then

>>> (Decimal('1.40') - Decimal('.3')) / Decimal('.05')
Decimal('22')

The fractions.Fraction class would work too. Or, you could just round:

>>> round((1.40-.3)/.05, 10) #  round to 10 decimal places
22.0
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Although it's generally not the case that people need arbitrary precision. 21.999999999999996 is, for most practical purposes, 22. –  arshajii May 31 at 13:42
for most practical purposes except for int() –  Aprillion May 31 at 13:43
Decimal works fine... except when it doesn't. For example, 1/d * d != 1 in general. It's only accurate when you stick to certain simple operations. –  delnan May 31 at 13:43
@Cupitor No, you could just round to 10 or so decimal places. –  Doorknob May 31 at 13:46
@Cupitor eval? I hope that file isn't from user input, and I hope it couldn't be edited by a malicious user. I'd recommend stopping that immediately and using float (as in float("12.34")) and rounding instead. –  Doorknob May 31 at 14:06

Drop the print and you'll see that the actual value is:

>>> (1.40-.3)/.05
21.999999999999996

Python 2 print() (more accurately, float.__str__) lies to you by rounding to a couple of decimal digits. Python 3 print() (again, actually float.__str__) doesn't do that, it always gives a faithful representation of the actual value (it abbreviates, but only when it doesn't change the value).

This inaccuracy is inherent to floating point numbers (including Decimal, though its inaccuracies occur different cases). This is a fundamental problem, representing arbitrary real numbers is not possible. See Is floating point math broken? for explanations.

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I see. But the "actual" value is 22.0! –  Cupitor May 31 at 13:42
@Cupitor What do you mean by "actual"? –  delnan May 31 at 13:44
I mean the real(mathematical) value of the expression. –  Cupitor May 31 at 13:46
@Cupitor you obviously haven't read the article from the first comment under your question. Real numbers cannot be represented by computers, only a subset of rational numbers. –  Aprillion May 31 at 13:48
@Cupitor It is a lie with regards to the value the program is actually dealing with. The rounding hides a very real error/inaccuracy in this case, but that doesn't make the error go away and in other cases it increases the error (e.g. for 1.0/3). –  delnan May 31 at 13:52

I think this explains it straightforwardly:

import decimal

>>> (decimal.Decimal(1.40) -decimal.Decimal(.3))/decimal.Decimal(.05)
Decimal('21.99999999999999722444243843')
>>> (decimal.Decimal('1.40') -decimal.Decimal('.3'))/decimal.Decimal('.05')
Decimal('22')
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