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I want a to be rounded to 13.95

>>> a
>>> round(a, 2)

The round function does not work the way I expected.

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stackoverflow.com/questions/249467/… –  hop Jan 18 '09 at 19:42
Hmm... Are you trying to represent currency? If so, you should not be using floats for dollars. You could probably use floats for pennies, or whatever the smallest common unit of currency you're trying to model happens to be, but the best practice is to use a decimal representation, as HUAGHAGUAH suggested in his answer. –  SingleNegationElimination Apr 13 '09 at 3:39
It is important not to represent currency in float. Floats are not precise. But penny or cent amounts are integers. Therefore integers are the correct way of representing currency. –  Davoud Taghawi-Nejad Jul 15 '12 at 22:44
@DavoudTaghawi-Nejad or more to the point... The Decimal Type –  Basic Apr 8 '13 at 11:01

11 Answers 11

You are running into the old problem with floating point numbers that all numbers cannot be represented. The command line is just showing you the full floating point form from memory. In floating point your rounded version is the same number. Since computers are binary they store floating point numbers as an integer and then divide it by a power of two so 13.95 will be represented in a similar fashion to 125650429603636838/(2**53). Double precision numbers have 53 bits (16 digits) of precision and regular floats have 24 bits (8 digits) of precision. The floating point in python uses double precision to store the values.

for example


  >>> 234042163/(2**24)

  >>> a=13.946
  >>> print(a)
  >>> print("%.2f" % a)
  >>> round(a,2)
  >>> print("%.2f" % round(a,2))
  >>> print("{0:.2f}".format(a))
  >>> print("{0:.2f}".format(round(a,2)))
  >>> print("{0:.15f}".format(round(a,2)))

If you are after only two decimal places as in currency then you have a couple of better choices use integers and store values in cents not dollars and then divide by 100 to convert to dollars. Or use a fixed point number like decimal

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But, what about when the number is going from 13.95 to let's say 13.90 ? My output will then be 13.9 I would like it to show the zero –  Christian Sep 11 '12 at 15:25
@Christian There's a fundamental difference between the value stored and how you display that value. Formatting the output should allow you to add padding as required, as well as adding comma separators, etc. –  Basic Apr 8 '13 at 11:03
@Basic As being more than a few months ago asking this question, I have learned that. But thanx anyway! :) –  Christian Apr 9 '13 at 12:23
worth mention that "%.2f" % round(a,2) you can put in not only in printf, but also in such things like str() –  dogspot.eu Nov 1 '13 at 1:15
why is it that people always assume currency on floating-point rounding? sometimes you just want to work with less precision. –  worc Jan 11 '14 at 23:56

There are new format specifications, here:


You can do the same as:


Note that the above returns a string. in order to get as float, simply wrap with float(...)


Note that wrapping with float() doesn't change anything:

>>> x = 13.949999999999999999
>>> x
>>> g = float("{0:.2f}".format(x))
>>> g
>>> x == g
>>> h = round(x, 2)
>>> h
>>> x == h
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That will give you a string. Not a number. –  Onur Yıldırım Mar 24 '13 at 4:04
to add commas as well you can '{0:,.2f}'.format(1333.949999999) which prints '1,333.95'. –  PubNub Jun 20 '14 at 2:41
@OnurYıldırım: yes, but you can wrap it with float(); float("{0:.2f}".format(13.9499999)) –  Jossef Harush Aug 17 '14 at 13:22
@JossefHarush you can wrap it with float(), but you haven't gained anything. Now you have a float again, with all the same imprecision. 13.9499999999999 and 13.95 are the same float. –  Ned Batchelder Aug 17 '14 at 13:52
@NedBatchelder: i agree that they are equal, but this limits the float to two decimal points :) –  Jossef Harush Aug 17 '14 at 14:09

Most numbers cannot be exactly represented in floats. If you want to round the number because that's what your mathematical formula or algorithm requires, then you want to use round. If you just want to restrict the display to a certain precision, then don't even use round and just format it as that string. (If you want to display it with some alternate rounding method, and there are tons, then you need to mix the two approaches.)

>>> "%.2f" % 3.14159
>>> "%.2f" % 13.9499999

And lastly, though perhaps most importantly, if you want exact math then you don't want floats at all. The usual example is dealing with money and to store 'cents' as an integer.

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exactly what i was looking for. thanks for not assuming that all floating-point rounding questions are about currency. –  worc Jan 11 '14 at 23:58

Try codes below:

>>> a = 0.99334
>>> a = int((a * 100) + 0.5) / 100.0 # Adding 0.5 rounds it up
>>> print a
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Why the downvote? Just up-voted ... Seems to be the most simple approach. I like it. –  Simon Steinberger Sep 6 '13 at 22:02
I also like it, it doesn't return a string like other solutions –  OriolJ Sep 11 '13 at 8:34
If you go with this approach, you should add a 0.5 for a more accurate representation. int(a * 100 + 0.5) / 100.0 ; Using math.ceil is another option. –  arhuaco Nov 8 '13 at 0:11
@ShashankSawant: Well, for one thing, the answer as presented does not round, it truncates. The suggestion to add half at the end will round, but then there is no benefit to doing this over just using the round function in the first place. For another thing, because this solution still uses floating point, the OP's original problem remains, even for the "corrected" version of this "solution". –  John Y Jun 17 '14 at 22:54
@interjay which is necessary if the round() doesn't work as the OP mentioned. –  Pithikos Feb 18 at 13:28

What you can do is modify the output format:

>>> a = 13.95
>>> a
>>> print "%.2f" % a
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The python tutorial has an appendix called: Floating Point Arithmetic: Issues and Limitations. Read it. It explains what is happening and why python is doing its best. It has even an example that matches yours. Let me quote a bit:

>>> 0.1

you may be tempted to use the round() function to chop it back to the single digit you expect. But that makes no difference:

>>> round(0.1, 1)

The problem is that the binary floating-point value stored for “0.1” was already the best possible binary approximation to 1/10, so trying to round it again can’t make it better: it was already as good as it gets.

Another consequence is that since 0.1 is not exactly 1/10, summing ten values of 0.1 may not yield exactly 1.0, either:

>>> sum = 0.0
>>> for i in range(10):
...     sum += 0.1
>>> sum

One alternative and solution to your problems would be using the decimal module.

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I feel that the simplest approach is to use the format()

For example: a = 13.949999999999999

format(a, '.2f')


This produces a float number as a string rounded to two decimal points.

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It's doing exactly what you told it to do, and working correctly. Read more about floating point confusion and maybe try Decimal objects instead.

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With python < 3 (e.g. 2.6 or 2.7), there are two ways to do so.

# Option one 
older_method_string = "%.9f" % numvar

# Option two 
newer_method_string = "{.9f}".format(numvar)

But note that for python versions above 3 (e.g. 3.2 or 3.3), option two is prefered

For more info on option two, I suggest this link on string formatting from the python docs.

And for more info on option one, this link will suffice and has info on the various flags.

Refrence: Python: Convert floating point number to certain precision, then copy to String

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How do you represent an integer? If I use "{i3}".format(numvar) I get an error. –  skytux Dec 12 '13 at 15:29
This is what I mean: If numvar=12.456, then "{:.2f}".format(numvar) yields 12.46 but "{:2i}".format(numvar) gives an error and I'm expecting 12. –  skytux Dec 12 '13 at 15:47

for fix the floating point in type dynamic languages such as Python and Javascript I use this technique

# for example:

print c # prints 980.0000000002
#try to fix 
c=int(c * 10000)/100000
print c # prints 980
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>>> int(0.999991*100)/100.0
>>> 0.99
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