# Limiting floats to two decimal points

I want `a` to be rounded to 13.95.

``````>>> a
13.949999999999999
>>> round(a, 2)
13.949999999999999
``````

The `round` function does not work the way I expected.

• 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
• @Basic, it depends(mostly no). Using integers in cents, or pennies is fool prove. Its the industry standard of representing money. If you know what you are doing, have a sound understanding of floating point arithmetic and python's decimal class, you might use decimal. But it depends much of your problem. Do you need arbitrary precision decimals? Or only two digits? If two digits: integer. It keeps you out of trouble. Source I worked in a software consultancy for banking. – Davoud Taghawi-Nejad Apr 17 '14 at 17:56
• I'm coming probably too late here, but I wanted to ask, have the developers of Python solved this problem? Because when I do round(13.949999999999999, 2), I simply get 13.95. I've tried it in Python 2.7.6, as well as 3.4. It works. Not sure if 2.7 even was there in 2009. Maybe it's a Python 2.5 thing? – bad_keypoints Sep 22 '15 at 5:51
• @bad_keypoints: Yes, the rounding problem has been solved by by Python 2.7.0+. More in my answer here – hynekcer Jul 29 '16 at 17:55

## 29 Answers

You are running into the old problem with floating point numbers that not all numbers can be represented exactly. The command line is just showing you the full floating point form from memory.

With floating point representation, 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 type in Python uses double precision to store the values.

For example,

``````>>> 125650429603636838/(2**53)
13.949999999999999

>>> 234042163/(2**24)
13.949999988079071

>>> a = 13.946
>>> print(a)
13.946
>>> print("%.2f" % a)
13.95
>>> round(a,2)
13.949999999999999
>>> print("%.2f" % round(a, 2))
13.95
>>> print("{:.2f}".format(a))
13.95
>>> print("{:.2f}".format(round(a, 2)))
13.95
>>> print("{:.15f}".format(round(a, 2)))
13.949999999999999
``````

If you are after only two decimal places (to display a currency value, for example), then you have a couple of better choices:

1. Use integers and store values in cents, not dollars and then divide by 100 to convert to dollars.
2. Or use a fixed point number like decimal.
• @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
• worth mention that `"%.2f" % round(a,2)` you can put in not only in printf, but also in such things like `str()` – andilabs 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
• @radtek: You need to understand that the binary value (of type `float`) is just the closest available approximation of the decimal number (that you are familiar with as a human being). There is no such (finitely representable) binary value as 0.245. It simply does not exist, and mathematically cannot exist. The binary value which is closest to 0.245 is slightly less than 0.245, so naturally it rounds down. Likewise, there is no such thing as 0.225 in binary, but the binary value which is closest to 0.225 is slightly greater than 0.225, so naturally it rounds up. – John Y Jun 14 '16 at 19:06
• @radtek: You did literally ask for an explanation. The most straightforward solution is indeed to use `Decimal`, and that was one of the solutions presented in this answer. The other was to convert your quantities to integer and use integer arithmetic. Both of these approaches also appeared in other answers and comments. – John Y Jun 15 '16 at 19:45

There are new format specifications, String Format Specification Mini-Language:

You can do the same as:

``````"{:.2f}".format(13.949999999999999)
``````

Note 1: the above returns a string. In order to get as float, simply wrap with `float(...)`:

``````float("{:.2f}".format(13.949999999999999))
``````

Note 2: wrapping with `float()` doesn't change anything:

``````>>> x = 13.949999999999999999
>>> x
13.95
>>> g = float("{:.2f}".format(x))
>>> g
13.95
>>> x == g
True
>>> h = round(x, 2)
>>> h
13.95
>>> x == h
True
``````
• to add commas as well you can `'{0:,.2f}'.format(1333.949999999)` which prints `'1,333.95'`. – Stephen Blum 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
• By the way, since Python 3.6 we can use f-strings: `f"Result is {result:.2f}"` – Andrey Semakin Feb 20 '19 at 12:54

The built-in `round()` works just fine in Python 2.7 or later.

Example:

``````>>> round(14.22222223, 2)
14.22
``````

Check out the documentation.

• So am I to understand that this is a Python 2.7 fail? Why would such a fundamental function yield different results from v 2.7 to v 3? – StartupGuy Sep 2 '17 at 23:50
• but `round(2.16, 1)` give `2.2` why python just offer a `truncate` func – jiamo Jan 8 '18 at 3:31
• For example, if you try to round the value 2.675 to two decimal places, you get this `>>> round(2.675, 2) 2.67` docs.python.org/2/tutorial/floatingpoint.html – danger89 Nov 6 '18 at 17:41
• From Python 3 documentation page: `Note The behavior of round() for floats can be surprising: for example, round(2.675, 2) gives 2.67 instead of the expected 2.68. This is not a bug: it’s a result of the fact that most decimal fractions can’t be represented exactly as a float.` – Richard Dally May 18 '19 at 22:14
• Note that if you try to use this method to print out a number such as 1.00000 it will only print out 1.0, regardless of how many decimal points you specify. – Josh Correia Aug 3 '19 at 16:36

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

For example:

``````a = 13.949999999999999
format(a, '.2f')

13.95
``````

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

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
'3.14'
>>> "%.2f" % 13.9499999
'13.95'
``````

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.

Use

``````print"{:.2f}".format(a)
``````

instead of

``````print"{0:.2f}".format(a)
``````

Because the latter may lead to output errors when trying to output multiple variables (see comments).

• This is nonsense. The two statements given behave identically on Python 2.7, and only the second statement is valid on Python 2.6. (Neither statement is valid in Python 3 or Python < 2.6.) The first form has no advantage besides brevity. – Mark Dickinson Jan 28 '18 at 17:56
• I mean, print"{0:.2f} {0:.2f}".format(a, b) will lead to mistake in output - it will output 'a' value twice. While print"{:.2f} {:.2f}".format(a, b) will output 'a' and 'b' values. – Alexey Antonenko Feb 1 '18 at 17:30
• For Python 3, you just need to add brackets print(...). And within them all I wrote is right. – Alexey Antonenko Feb 1 '18 at 17:31
• "I mean, print"{0:.2f} {0:.2f}".format(a, b) will lead to mistake in output ". Ah. Well, that's quite a different statement! Maybe you should edit your answer? (What does "raise error" mean in the current answer, for example? Can you give an example of a case where the second statement raises an exception but the first doesn't?) – Mark Dickinson Feb 1 '18 at 18:34
• You would be after print("{0:.2f} {1:.2f}".format(a, b)) if you have two variables – Hovo Feb 10 '18 at 23:12

Nobody here seems to have mentioned it yet, so let me give an example in Python 3.6's f-string/template-string format, which I think is beautifully neat:

``````>>> f'{a:.2f}'
``````

It works well with longer examples too, with operators and not needing parens:

``````>>> print(f'Completed in {time.time() - start:.2f}s')
``````
• it's late 2020 and this is still so much down below – galactica Nov 20 '20 at 7:17

Try the code below:

``````>>> a = 0.99334
>>> a = int((a * 100) + 0.5) / 100.0 # Adding 0.5 rounds it up
>>> print a
0.99
``````
• But be cautioned, value of a is still an imprecise float. Take a look here - repl.it/LJs (Click "Run Session" on the top of the Right section). – lifebalance Oct 2 '13 at 19:23
• 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
• -1, this is just an unnecessary reimplementation of the `round` function (which was used in the question). – interjay Sep 12 '14 at 22:55
• @interjay which is necessary if the `round()` doesn't work as the OP mentioned. – Pithikos Feb 18 '15 at 13:28

## TLDR ;)

The rounding problem of input / output has been solved definitively by Python 2.7.0 and 3.1.

A correctly rounded number can be reversibly converted back and forth:
`str -> float() -> repr() -> float() ...` or `Decimal -> float -> str -> Decimal`
A Decimal type is not necessary for storage anymore.

(Naturally, it can be necessary to round a result of addition or subtraction of rounded numbers to eliminate the accumulated last bit errors. An explicit Decimal arithmetic can be still handy, but a conversion to string by `str()` (that is with rounding to 12 valid digits) is good enough usually if no extreme accuracy or no extreme number of successive arithmetic operations is required.)

Infinite test:

``````import random
from decimal import Decimal
for x in iter(random.random, None):           # Verify FOREVER that rounding is fixed :-)
assert float(repr(x)) == x                # Reversible repr() conversion.
assert float(Decimal(repr(x))) == x
assert len(repr(round(x, 10))) <= 12      # Smart decimal places in repr() after round.
if x >= 0.1:                              # Implicit rounding to 12 significant digits
assert str(x) == repr(round(x, 12))   # by str() is good enough for small errors.
y = 1000 * x                             # Decimal type is excessive for shopping
assert str(y) == repr(round(y, 12 - 3))  # in a supermaket with Python 2.7+ :-)
``````

## Documentation

See the Release notes Python 2.7 - Other Language Changes the fourth paragraph:

Conversions between floating-point numbers and strings are now correctly rounded on most platforms. These conversions occur in many different places: str() on floats and complex numbers; the float and complex constructors; numeric formatting; serializing and de-serializing floats and complex numbers using the `marshal`, `pickle` and `json` modules; parsing of float and imaginary literals in Python code; and Decimal-to-float conversion.

Related to this, the repr() of a floating-point number x now returns a result based on the shortest decimal string that’s guaranteed to round back to x under correct rounding (with round-half-to-even rounding mode). Previously it gave a string based on rounding x to 17 decimal digits.

The related issue

More information: The formatting of `float` before Python 2.7 was similar to the current `numpy.float64`. Both types use the same 64 bit IEEE 754 double precision with 52 bit mantissa. A big difference is that `np.float64.__repr__` is formatted frequently with an excessive decimal number so that no bit can be lost, but no valid IEEE 754 number exists between 13.949999999999999 and 13.950000000000001. The result is not nice and the conversion `repr(float(number_as_string))` is not reversible with numpy. On the other hand: `float.__repr__` is formatted so that every digit is important; the sequence is without gaps and the conversion is reversible. Simply: If you perhaps have a numpy.float64 number, convert it to normal float in order to be formatted for humans, not for numeric processors, otherwise nothing more is necessary with Python 2.7+.

• Why downvoted? The question was about Python `float` (double precision) and normal `round`, not about numpy.double and its conversion to string. Plain Python rounding really can not be done better than in Python 2.7. The most of answers has been written before 2.7, but they are obsoleted, though they were very good originally. This is the reason of my answer. – hynekcer Apr 15 '16 at 11:02
• 53 bits when you include the "hidden bit", which is implicitly `1`, except during "gradual underflow". – Rick James May 17 '17 at 4:16
• It's not round's fault, it's the display fault. – Rick James May 17 '17 at 4:22
• Yes, it's well known. I miss however a context if you object to something in Python 2.7 Release notes or in my text or to nothing at all. It is more complicated than was necessary the purpose of this question. It should be added that also conversion from string to float has been fixed in Python 2.7 due to rounding bug on certain 32-bit Intel chips and that "The round() function is also now correctly rounded." (Release notes - 3.1 features backported to 2.7). Can you agree? – hynekcer May 17 '17 at 9:26
• Oops, that was `a*b` vs `b*a`. Thanks for the links -- Nostalgia. – Rick James May 17 '17 at 20:11

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 (note ':' before the '.9f')
newer_method_string = "{:.9f}".format(numvar)
``````

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

For more information on option two, I suggest this link on string formatting from the Python documentation.

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

• 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

You can modify the output format:

``````>>> a = 13.95
>>> a
13.949999999999999
>>> print "%.2f" % a
13.95
``````

You can use format operator for rounding the value up to 2 decimal places in python:

``````print(format(14.4499923, '.2f')) // output is 14.45
``````

In Python 2.7:

``````a = 13.949999999999999
output = float("%0.2f"%a)
print output
``````
• This doesn't help at all. `output` has the exact same value as `a`, so you might as well have written `print a` instead of `print output` in the last line. – Mark Dickinson May 26 '18 at 6:12
• @MarkDickinson Could you please try again. Because It is running as expected in my compiler. – Shashank Singh Sep 23 '18 at 8:07
• You're missing my point. Yes, your code prints `13.95`. But so does `print a`, for this particular value of `a`, in Python 2.7, so it's not really clear what the point of the formatting step was. – Mark Dickinson Sep 23 '18 at 11:13
• @MarkDickinson I have edited the code. I agree that 'print a' does print the same value as "print output". But if you compare "a==output", the result will be "False" because formatting step does round off the floating value "a" to two decimal points. – Shashank Singh Sep 23 '18 at 11:45
• Did you actually try `a == output` for the code you show? It gives `True` for me, and I suspect it does for you, too. – Mark Dickinson Sep 23 '18 at 11:46

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
0.10000000000000001
``````

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)
0.10000000000000001
``````

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
0.99999999999999989
``````

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

``````float_number = 12.234325335563
round(float_number, 2)
``````

This will return;

``````12.23
``````

round function takes two arguments; Number to be rounded and the number of decimal places to be returned.Here i returned 2 decimal places.

• But how did you get an additional 0 to show up if we have say, 0.093. This is giving me 0.1 as the answer – Naman Jain Nov 25 '20 at 0:40
• If you return 2 decimal places or in general 1 place more than the number of zeroes present in the decimal part on left side, then you will get the correct result as you want.e.g, if you apply simply my answer to the number 0.093, it will return 0.09 but if you want to get only 1 decimal place, then of course, it will return 0.1 as 0.0 is completely wrong.(and my code works in the same way. Maybe you want to get only 1 decimal place. If you want to get more accurate results, you must have to increase the number of decimal places.) – Irfan wani Nov 25 '20 at 9:53
• It's not true that it will return decimal, according to the documentation ` The return value is an integer if ndigits is omitted or None. Otherwise the return value has the same type as the number. ndigits may be negative.` – Saif Masadeh Mar 9 at 1:53

As @Matt pointed out, Python 3.6 provides f-strings, and they can also use nested parameters:

``````value = 2.34558
precision = 2
width = 4

print(f'result: {value:{width}.{precision}f}')
``````

which will display `result: 2.35`

Use combination of Decimal object and round() method.

``````Python 3.7.3
>>> from decimal import Decimal
>>> d1 = Decimal (13.949999999999999) # define a Decimal
>>> d1
Decimal('13.949999999999999289457264239899814128875732421875')
>>> d2 = round(d1, 2) # round to 2 decimals
>>> d2
Decimal('13.95')
``````

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

We multiple options to do that : Option 1:

``````x = 1.090675765757
g = float("{:.2f}".format(x))
print(g)
``````

Option 2: The built-in round() supports Python 2.7 or later.

``````x = 1.090675765757
g =  round(x, 2)
print(g)
``````
• The question specifically says that the round method does not do what he wants. Check this answer for more info on why is that – Gustavo Kawamoto Oct 5 '20 at 1:43

For fixing the floating point in type-dynamic languages such as Python and JavaScript, I use this technique

``````# For example:
a = 70000
b = 0.14
c = a * b

print c # Prints 980.0000000002
# Try to fix
c = int(c * 10000)/100000
print c # Prints 980
``````

You can also use Decimal as following:

``````from decimal import *
getcontext().prec = 6
Decimal(1) / Decimal(7)
# Results in 6 precision -> Decimal('0.142857')

getcontext().prec = 28
Decimal(1) / Decimal(7)
# Results in 28 precision -> Decimal('0.1428571428571428571428571429')
``````
• `getcontext().prec = 6` works for just the scope of the function or all places? – Julio Marins Oct 4 '17 at 20:12
• Contexts are environments for arithmetic operations. They govern precision, set rules for rounding, determine which signals are treated as exceptions, and limit the range for exponents. Each thread has its own current context @JulioMarins – Siamand Oct 4 '17 at 20:32
``````from decimal import Decimal

def round_float(v, ndigits=2, rt_str=False):
d = Decimal(v)
v_str = ("{0:.%sf}" % ndigits).format(round(d, ndigits))
if rt_str:
return v_str
return Decimal(v_str)
``````

Results:

``````Python 3.6.1 (default, Dec 11 2018, 17:41:10)
>>> round_float(3.1415926)
Decimal('3.14')
>>> round_float(3.1445926)
Decimal('3.14')
>>> round_float(3.1455926)
Decimal('3.15')
>>> round_float(3.1455926, rt_str=True)
'3.15'
>>> str(round_float(3.1455926))
'3.15'
``````
``````orig_float = 232569 / 16000.0
``````

14.5355625

``````short_float = float("{:.2f}".format(orig_float))
``````

14.54

It's simple like 1,2,3:

1. use decimal module for fast correctly-rounded decimal floating point arithmetic:

d=Decimal(10000000.0000009)

to achieve rounding:

``````   d.quantize(Decimal('0.01'))
``````

will results with `Decimal('10000000.00')`

1. make above DRY:
``````    def round_decimal(number, exponent='0.01'):
decimal_value = Decimal(number)
return decimal_value.quantize(Decimal(exponent))
``````

OR

``````    def round_decimal(number, decimal_places=2):
decimal_value = Decimal(number)
return decimal_value.quantize(Decimal(10) ** -decimal_places)
``````
1. upvote this answer :)

PS: critique of others: formatting is not rounding.

What about a lambda function like this:

``````arred = lambda x,n : x*(10**n)//1/(10**n)
``````

This way you could just do:

``````arred(3.141591657,2)
``````

and get

``````3.14
``````

The answers I saw didn't work with the float(52.15) case. After some tests, there is the solution that I'm using:

``````import decimal

def value_to_decimal(value, decimal_places):
decimal.getcontext().rounding = decimal.ROUND_HALF_UP  # define rounding method
return decimal.Decimal(str(float(value))).quantize(decimal.Decimal('1e-{}'.format(decimal_places)))
``````

(The conversion of the 'value' to float and then string is very important, that way, 'value' can be of the type float, decimal, integer or string!)

Hope this helps anyone.

To round a number to a resolution, the best way is the following one, which can work with any resolution (0.01 for two decimals or even other steps):

``````>>> import numpy as np
>>> value = 13.949999999999999
>>> resolution = 0.01
>>> newValue = int(np.round(value/resolution))*resolution
>>> print newValue
13.95

>>> resolution = 0.5
>>> newValue = int(np.round(value/resolution))*resolution
>>> print newValue
14.0
``````
• doesn't work for me on python 3.4.3 and numpy 1.9.1 ? >>> import numpy as np >>> res = 0.01 >>> value = 0.184 >>> np.round(value/res) * res 0.17999999999999999 – szeitlin Apr 11 '16 at 16:34
• Looking for documentation I see the problem comes from `numpy.round` accuracy/precision. So it requires to define it as int before multiplication with resolution. I updated the code. Thank you for that! – iblasi Apr 13 '16 at 16:28
• The only necessary is to convert `numpy.float64` result of np.round to `float` or simply to use `round(value, 2)`. No valid IEEE 754 number exists between 13.949999999999999 (= 1395 / 100.) and 3.950000000000001 (= 1395 * .01). Why do you think that your method is the best? The original value 13.949999999999999289 (= value = round(value, 2)) is even more exact than your 13.95000000000000178 (printed by np.float96). More info also for numpy is now added to my answer that you probably downvoted by mistake. It wasn't about numpy originally. – hynekcer Apr 15 '16 at 13:04
• @hynekcer I do not think that my answer is the best. Just wanted to add an example of limit float to n decimals but the nearest of a defined resolution. I checked as you said, that instead of `int`you can also use `float`for @szeitlin example. Thank you for your extra comment. (Sorry but I did not downvote you) – iblasi Apr 15 '16 at 20:49
• Adding whole new dependency for numeric processing (pandas) is the "best way"? – Hejazzman Apr 18 '19 at 14:13

lambda x,n:int(x*10n+.5)/10n has worked for me for many years in many languages.

If you want to handle money, use python decimal module

``````from decimal import Decimal, ROUND_HALF_UP

# amount can be integer, string, tuple, float, or another Decimal object
def to_money(amount) -> Decimal:
money = Decimal(amount).quantize(Decimal('.00'), rounding=ROUND_HALF_UP)
return money
``````

The method I use is that of string slicing. It's relatively quick and simple.

First, convert the float to a string, the choose the length you would like it to be.

``````float = str(float)[:5]
``````

In the single line above, we've converted the value to a string, then kept the string only to its first four digits or characters (inclusive).

Hope that helps!

• Please don't post identical answers to multiple questions. – vaultah Dec 31 '15 at 8:18
• WOW... tdh... Please never make any accounting software... What happens if the number happen to be 113.94 ?? this would result in 113.9 ... leaving 0.04 missing.... Also this already has answers from over 5 years ago.... – Angry 84 Jan 8 '16 at 3:33