98

How do I get 1324343032.324?

As you can see below, the following do not work:

>>1324343032.324325235 * 1000 / 1000
1324343032.3243253
>>int(1324343032.324325235 * 1000) / 1000.0
1324343032.3239999
>>round(int(1324343032.324325235 * 1000) / 1000.0,3)
1324343032.3239999
>>str(1324343032.3239999)
'1324343032.32'
6
  • 7
    There is no such value in the set that are represented by floating-point numbers. Commented Dec 21, 2011 at 20:55
  • 3
    In case Karl's comment is not clear enough: There is no such number as 1324343032.324 in binary floating point. If you switch to a higher version of Python (2.7 or 3.1 or later) the interpreter will display 1324343032.324 for you. But in actuality, the number you are computing with is neither 1324343032.324 nor 1324343032.3239999 regardless of Python version. The only way to get exactly 1324343032.324 is to use the decimal module or some other arbitrary-precision math library, such as gmpy.
    – John Y
    Commented Dec 21, 2011 at 23:14
  • 1
    @nullstellensatz stackoverflow.com/questions/783897/truncating-floats-in-python Commented Feb 4, 2015 at 22:49
  • 1
    @AbhranilDas this question is a duplicate of the one you pointed to. Since both of the questions have misleading answers, I have marked this one as a duplicate, so that all issues related to truncating can be dealt with in one place. Also, check out my comments and suggested answer for the original question. Commented Feb 5, 2015 at 3:59
  • 2
    Maybe python changed since this question, int(1324343032.324325235 * 1000) / 1000.0 seems to work well
    – Chenna V
    Commented Mar 4, 2020 at 20:18

21 Answers 21

95

You can use an additional float() around it if you want to preserve it as a float.

val = '%.3f'%(1324343032.324325235)
13
  • 7
    This is basically the correct answer, just use val = '%.3f'%(1324343032.324325235) instead of print. Commented Dec 21, 2011 at 20:37
  • 19
    This answer is correct, if you want to round (up) to a given number of decimal places. However, what the question is asking, and what I wanted to know, is how to truncate to a particular number of decimal places. For me, '%.3f'%(1324343032.3243) and '%.3f'%(1324343032.3245) give different results. (I am using Python 2.7.8). Commented Feb 3, 2015 at 13:38
  • 8
    '%.2f' % 8866.316 is round but not truncate
    – Oleg
    Commented Jan 30, 2018 at 13:18
  • 4
    you are rounding; take a look at my answer Commented Apr 15, 2018 at 19:21
  • 10
    This it not truncating.
    – Darkenor
    Commented May 22, 2020 at 15:31
89

You can use the following function to truncate a number to a set number of decimals:

import math
def truncate(number, digits) -> float:
    # Improve accuracy with floating point operations, to avoid truncate(16.4, 2) = 16.39 or truncate(-1.13, 2) = -1.12
    nbDecimals = len(str(number).split('.')[1]) 
    if nbDecimals <= digits:
        return number
    stepper = 10.0 ** digits
    return math.trunc(stepper * number) / stepper

Usage:

>>> truncate(1324343032.324325235, 3)
1324343032.324
5
  • 14
    This should really be the accepted answer. The code is simple, elegant, and makes the most sense. Use the standard truncate function, however first shift the decimal place, shifting the decimal place back once the truncate has been performed.
    – CatalystNZ
    Commented Feb 27, 2018 at 23:57
  • note floating point precision errors truncate(-1.13, 2) == -1.12, i've change it a bit (with a bitter taste in the mouth) to math.trunc(round(stepper * number, digits * 3)) / stepper
    – eplaut
    Commented May 7, 2019 at 11:02
  • you can just do int(stepper * number) / stepper
    – Yohan E
    Commented Jul 17, 2020 at 15:50
  • 1
    I've tried this with the following numbers: number = 16.4 and digits = 2; the resulting value is 16.39 unfortunately.
    – Mo Kanj
    Commented May 16, 2022 at 17:47
  • @MoKanj Good point, I have updated the answer to improve the accuracy. Commented May 18, 2022 at 22:23
34

I've found another solution (it must be more efficient than "string witchcraft" workarounds):

>>> import decimal
# By default rounding setting in python is decimal.ROUND_HALF_EVEN
>>> decimal.getcontext().rounding = decimal.ROUND_DOWN
>>> c = decimal.Decimal(34.1499123)
# By default it should return 34.15 due to '99' after '34.14'
>>> round(c,2)
Decimal('34.14')
>>> float(round(c,2))
34.14
>>> print(round(c,2))
34.14

About decimals module

About rounding settings

4
  • 1
    I think this should be one of the more accepted answers... it teaches you how to utilize & modify modules to your advantage, which expresses how truly dynamic and powerful python can be
    – greenhouse
    Commented Jun 28, 2019 at 21:54
  • @solveme the only issue with this and personally I don't know why the standard math lib doesn't have round in it., is that the decimal library being very high precision reportedly comes with a performance cost. still a 100x better than the answer directly above which would throw an exception with a number too big. good job.
    – John Sohn
    Commented Oct 6, 2021 at 13:06
  • The problem here is that it's trading the undesirable string manipulation for the equally (if not more) undesirable package import, plus the added overhead of decimal. Which one is worse will probably depend on the specific use case.
    – Z4-tier
    Commented Feb 11, 2023 at 7:38
  • 1
    Looks like, If module import is so bad, it's better to not use python at all.
    – solveMe
    Commented Feb 13, 2023 at 8:49
14

How about this:

In [1]: '%.3f' % round(1324343032.324325235 * 1000 / 1000,3)
Out[1]: '1324343032.324'

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

[EDIT]

Given the additional comments I believe you'll want to do:

In : Decimal('%.3f' % (1324343032.324325235 * 1000 / 1000))
Out: Decimal('1324343032.324')

The floating point accuracy isn't going to be what you want:

In : 3.324
Out: 3.3239999999999998

(all examples are with Python 2.6.5)

7

'%.3f'%(1324343032.324325235)

It's OK just in this particular case.

Simply change the number a little bit:

1324343032.324725235

And then:

'%.3f'%(1324343032.324725235)

gives you 1324343032.325

Try this instead:

def trun_n_d(n,d):
    s=repr(n).split('.')
    if (len(s)==1):
        return int(s[0])
    return float(s[0]+'.'+s[1][:d])

Another option for trun_n_d:

def trun_n_d(n,d):
    dp = repr(n).find('.') #dot position
    if dp == -1:  
        return int(n) 
    return float(repr(n)[:dp+d+1])

Yet another option ( a oneliner one) for trun_n_d [this, assumes 'n' is a str and 'd' is an int]:

def trun_n_d(n,d):
    return (  n if not n.find('.')+1 else n[:n.find('.')+d+1]  )

trun_n_d gives you the desired output in both, Python 2.7 and Python 3.6

trun_n_d(1324343032.324325235,3) returns 1324343032.324

Likewise, trun_n_d(1324343032.324725235,3) returns 1324343032.324


Note 1 In Python 3.6 (and, probably, in Python 3.x) something like this, works just fine:

def trun_n_d(n,d):
    return int(n*10**d)/10**d

But, this way, the rounding ghost is always lurking around.

Note 2 In situations like this, due to python's number internals, like rounding and lack of precision, working with n as a str is way much better than using its int counterpart; you can always cast your number to a float at the end.

6

Use the decimal module. But if you must use floats and still somehow coerce them into a given number of decimal points converting to string an back provides a (rather clumsy, I'm afraid) method of doing it.

>>> q = 1324343032.324325235 * 1000 / 1000
>>> a = "%.3f" % q
>>> a
'1324343032.324'
>>> b = float(a)
>>> b
1324343032.324

So:

float("%3.f" % q)
1
  • 1
    It's good that you mentioned the decimal module first, because that is the only fully correct answer. One thing to be a little careful of with the rest is that b in your example will be displayed as 1324343032.3239999 on versions of Python before 2.7. And indeed, this is the value that OP is seeing when he tries. Of course, both values are indistinguishable, in terms of binary floating point.
    – John Y
    Commented Dec 21, 2011 at 22:56
6

I believe using the format function is a bad idea. Please see the below. It rounds the value. I use Python 3.6.

>>> '%.3f'%(1.9999999)
'2.000'

Use a regular expression instead:

>>> re.match(r'\d+.\d{3}', str(1.999999)).group(0)
'1.999'
6

Function

def truncate(number: float, digits: int) -> float:
    pow10 = 10 ** digits
    return number * pow10 // 1 / pow10

Test code

f1 = 1.2666666
f2 = truncate(f1, 3)
print(f1, f2)

Output

1.2666666 1.266

Explain

It shifts f1 numbers digits times to the left, then cuts all decimals and finally shifts back the numbers digits times to the right.

Example in a sequence:

1.2666666 # number
1266.6666 # number * pow10
1266.0    # number * pow10 // 1
1.266     # number * pow10 // 1 / pow10
5

I suggest next solution:

def my_floor(num, precision):
   return f'{num:.{precision+1}f}'[:-1]

my_floor(1.026456,2) # 1.02

2
  • I like this because it is using the modern Python string interpolation. But I don't understand why you have made it one more length than it needs to be and then cut off the last character. This can't be to do with rounding, as your solution does what the OP asked for, truncation, not rounding (as demonstrated by your example). Commented Oct 20, 2021 at 13:43
  • 2
    Taking one extra digit and then removing it is necessary, because formatting a number with the string itself rounds the number! For example: f'{0.55:.2f}'[:-1] returns '0.5', but f'{0.55:.1f}' returns '0.6'. This is also why this solution will fail on pathological cases like 1.9999999. It will always return '2.0x', where 0x denotes as many zeros as the desired precision. Commented Nov 13, 2022 at 20:27
4

Maybe this way:

def myTrunc(theNumber, theDigits):

    myDigits = 10 ** theDigits
    return (int(theNumber * myDigits) / myDigits)
1
  • Heads up, this works on Python 3, but not Python 2, due to changes in how / works.
    – Jeff G
    Commented Mar 15, 2019 at 20:22
4

I think the best and proper way is to use decimal module.

import decimal

a = 1324343032.324325235

decimal_val = decimal.Decimal(str(a)).quantize(
   decimal.Decimal('.001'), 
   rounding=decimal.ROUND_DOWN
)
float_val = float(decimal_val)

print(decimal_val)
>>>1324343032.324

print(float_val)
>>>1324343032.324

You can use different values for rounding=decimal.ROUND_DOWN, available options are ROUND_CEILING, ROUND_DOWN, ROUND_FLOOR, ROUND_HALF_DOWN, ROUND_HALF_EVEN, ROUND_HALF_UP, ROUND_UP, and ROUND_05UP. You can find explanation of each option here in docs.

2

Almo's link explains why this happens. To solve the problem, use the decimal library.

1
  • You do not explicit help the OP. Commented Jul 25, 2022 at 14:27
2

Okay, this is just another approach to solve this working on the number as a string and performing a simple slice of it. This gives you a truncated output of the number instead of a rounded one.

num = str(1324343032.324325235)
i = num.index(".")
truncated = num[:i + 4]
    
print(truncated)

Output:

'1324343032.324'

Of course then you can parse:

float(truncated)
1

After looking for a way to solve this problem, without loading any Python 3 module or extra mathematical operations, I solved the problem using only str.format() e .float(). I think this way is faster than using other mathematical operations, like in the most commom solution. I needed a fast solution because I work with a very very large dataset and so for its working very well here.

def truncate_number(f_number, n_decimals):
      strFormNum = "{0:." + str(n_decimals+5) + "f}"
      trunc_num = float(strFormNum.format(f_number)[:-5])
      return(trunc_num)

# Testing the 'trunc_num()' function
test_num = 1150/252
[(idx, truncate_number(test_num, idx)) for idx in range(0, 20)]

It returns the following output:

[(0, 4.0),
 (1, 4.5),
 (2, 4.56),
 (3, 4.563),
 (4, 4.5634),
 (5, 4.56349),
 (6, 4.563492),
 (7, 4.563492),
 (8, 4.56349206),
 (9, 4.563492063),
 (10, 4.5634920634),
 (11, 4.56349206349),
 (12, 4.563492063492),
 (13, 4.563492063492),
 (14, 4.56349206349206),
 (15, 4.563492063492063),
 (16, 4.563492063492063),
 (17, 4.563492063492063),
 (18, 4.563492063492063),
 (19, 4.563492063492063)]
1

Based on @solveMe asnwer (https://stackoverflow.com/a/39165933/641263) which I think is one of the most correct ways by utilising decimal context, I created following method which does the job exactly as needed:

import decimal

def truncate_decimal(dec: Decimal, digits: int) -> decimal.Decimal:
    round_down_ctx = decimal.getcontext()
    round_down_ctx.rounding = decimal.ROUND_DOWN
    new_dec = round_down_ctx.create_decimal(dec)
    return round(new_dec, digits)
0

You can also use:

import math

nValeur = format(float(input('Quelle valeur ?    ')), '.3f')

In Python 3.6 it would work.

0
a = 1.0123456789
dec = 3 # keep this many decimals
p = 10 # raise 10 to this power
a * 10 ** p // 10 ** (p - dec) / 10 ** dec
>>> 1.012
0

Maybe python changed since this question, all of the below seem to work well

Python2.7

int(1324343032.324325235 * 1000) / 1000.0
float(int(1324343032.324325235 * 1000)) / 1000
round(int(1324343032.324325235 * 1000) / 1000.0,3)
# result for all of the above is 1324343032.324
-1
>>> float(1324343032.324325235) * float(1000) / float(1000)

1324343032.3243253

>>> round(float(1324343032.324325235) * float(1000) / float(1000), 3)

1324343032.324
1
  • 1
    While this code snippet may solve the question, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion.
    – DimaSan
    Commented Mar 18, 2017 at 1:37
-1

I am trying to generate a random number between 5 to 7 and want to limit it to 3 decimal places.

import random

num = float('%.3f' % random.uniform(5, 7))
print (num)
-1

I develop a good solution, I know there is much If statements, but It works! (Its only for <1 numbers)

def truncate(number, digits) -> float:
    startCounting = False
    if number < 1:
      number_str = str('{:.20f}'.format(number))
      resp = ''
      count_digits = 0
      for i in range(0, len(number_str)):
        if number_str[i] != '0' and number_str[i] != '.' and number_str[i] != ',':
          startCounting = True
        if startCounting:
          count_digits = count_digits + 1
        resp = resp + number_str[i]
        if count_digits == digits:
            break
      return resp
    else:
      return number

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