drop trailing zeros from decimal

I have a long list of Decimals and that I have to adjust by factors of 10, 100, 1000,..... 1000000 depending on certain conditions. When I multiply them there is sometimes a useless trailing zero (though not always) that I want to get rid of. For example...

``````from decimal import Decimal

# outputs 25.0,  PROBLEM!  I would like it to output 25
print Decimal('2.5') * 10

# outputs 2567.8000, PROBLEM!  I would like it to output 2567.8
print Decimal('2.5678') * 1000
``````

Is there a function that tells the decimal object to drop these insignificant zeros? The only way I can think of doing this is to convert to a string and replace them using regular expressions.

Should probably mention that I am using python 2.6.5

EDIT senderle's fine answer made me realize that I occasionally get a number like 250.0 which when normalized produces 2.5E+2. I guess in these cases I could try to sort them out and convert to a int

• Those trailing zeros are preserved as they represent the maximal precision of the expressions resulting in the value (which is considered significant to the Decimal type). Jun 27, 2012 at 13:46

You can use the `normalize` method to remove extra precision.

``````>>> print decimal.Decimal('5.500')
5.500
>>> print decimal.Decimal('5.500').normalize()
5.5
``````

To avoid stripping zeros to the left of the decimal point, you could do this:

``````def normalize_fraction(d):
normalized = d.normalize()
sign, digits, exponent = normalized.as_tuple()
if exponent > 0:
return decimal.Decimal((sign, digits + (0,) * exponent, 0))
else:
return normalized
``````

Or more compactly, using `quantize` as suggested by user7116:

``````def normalize_fraction(d):
normalized = d.normalize()
sign, digit, exponent = normalized.as_tuple()
return normalized if exponent <= 0 else normalized.quantize(1)
``````

You could also use `to_integral()` as shown here but I think using `as_tuple` this way is more self-documenting.

``````>>> normalize_fraction(decimal.Decimal('55.5'))
Decimal('55.5')
>>> normalize_fraction(decimal.Decimal('55.500'))
Decimal('55.5')
>>> normalize_fraction(decimal.Decimal('55500'))
Decimal('55500')
>>> normalize_fraction(decimal.Decimal('555E2'))
Decimal('55500')
``````
• Oooo, that works. But I noticed that on something like 250.0 that this will convert it to 2.5e+02, not 250. I realize that I did not say this in my OP. Is there a work around for this. Jun 27, 2012 at 13:53
• Your other option is: `Decimal('5.000').quantize(Decimal('1.'))`. Jun 27, 2012 at 14:58
• @user7116 `d.quantize(Decimal('1.'))` will drop all digits, not just trailing zeros. For example, `Decimal('5.050').quantize(Decimal('1.'))` returns a `Decimal('5')`. Feb 13, 2015 at 8:59

Answer from the `Decimal` FAQ in the documentation:

``````>>> def remove_exponent(d):
...     return d.quantize(Decimal(1)) if d == d.to_integral() else d.normalize()

>>> remove_exponent(Decimal('5.00'))
Decimal('5')

>>> remove_exponent(Decimal('5.500'))
Decimal('5.5')

>>> remove_exponent(Decimal('5E+3'))
Decimal('5000')
``````
• This should really be the accepted answer, since it's straight out of the documentation. Nov 25, 2014 at 2:00
• Note that this will fail when the integral decimal is larger than the number of digits in the context's precision. For example, `remove_exponent(Decimal('5e28'))` will raise `decimal.InvalidOperation: quantize result has too many digits for current context`, although the default context otherwise is perfectly capable of representing 5e28. Feb 13, 2015 at 10:26

There's probably a better way of doing this, but you could use `.rstrip('0').rstrip('.')` to achieve the result that you want.

Using your numbers as an example:

``````>>> s = str(Decimal('2.5') * 10)
>>> print s.rstrip('0').rstrip('.') if '.' in s else s
25
>>> s = str(Decimal('2.5678') * 1000)
>>> print s.rstrip('0').rstrip('.') if '.' in s else s
2567.8
``````

And here's the fix for the problem that @gerrit pointed out in the comments:

``````>>> s = str(Decimal('1500'))
>>> print s.rstrip('0').rstrip('.') if '.' in s else s
1500
``````
• "if you do convert them to a string" - the OP has to convert to a string at some point, since he is outputting text!
– Eric
Jun 27, 2012 at 13:59
• This is true. I do have to convert them to text to output them. Senderle's answer works fine if I want to keep them as a decimal but this one works for my purposes. Jun 27, 2012 at 14:06
• This should contain a conditional `if '.' in s`, otherwise it will change `1500` into `15`. Nov 20, 2012 at 9:54
• or `re.sub('\.0+\$', '', s)` which is more compact but supposedly slower
– axil
May 27, 2015 at 11:28
• This doesn't work for Decimal('2.5E10'). It will return 2.5E1, which is obviously wrong. May 18, 2018 at 8:45

Answer is mentioned in FAQ (https://docs.python.org/2/library/decimal.html#decimal-faq) but does not explain things.

To drop trailing zeros for fraction part you should use `normalize`:

``````>>> Decimal('100.2000').normalize()
Decimal('100.2')
>> Decimal('0.2000').normalize()
Decimal('0.2')
``````

But this works different for numbers with leading zeros in sharp part:

``````>>> Decimal('100.0000').normalize()
Decimal('1E+2')
``````

In this case we should use `to_integral':

``````>>> Decimal('100.000').to_integral()
Decimal('100')
``````

So we could check if there's a fraction part:

``````>>> Decimal('100.2000') == Decimal('100.2000').to_integral()
False
>>> Decimal('100.0000') == Decimal('100.0000').to_integral()
True
``````

And use appropriate method then:

``````def remove_exponent(num):
return num.to_integral() if num == num.to_integral() else num.normalize()
``````

Try it:

``````>>> remove_exponent(Decimal('100.2000'))
Decimal('100.2')
>>> remove_exponent(Decimal('100.0000'))
Decimal('100')
>>> remove_exponent(Decimal('0.2000'))
Decimal('0.2')
``````

Now we're done.

Use the format specifier `%g`. It seems remove to trailing zeros.

``````>>> "%g" % (Decimal('2.5') * 10)
'25'
>>> "%g" % (Decimal('2.5678') * 1000)
'2567.8'
``````

It also works without the `Decimal` function

``````>>> "%g" % (2.5 * 10)
'25'
>>> "%g" % (2.5678 * 1000)
'2567.8'
``````
• `%g` only supports ints and floats so `Decimal` will be cast to float. Mypy warns about the type error: `Incompatible types in string interpolation (expression has type "Decimal", placeholder has type "Union[int, float]")`. "%g" % Decimal('200000000.123456789') => '2e+06' vs stackoverflow.com/a/18769210/3720597 str(remove_exponent(Decimal('2000000.123456789'))) => '2000000.123456789' Nov 16, 2019 at 18:50

I ended up doing this:

``````import decimal

def dropzeros(number):
mynum = decimal.Decimal(number).normalize()
# e.g 22000 --> Decimal('2.2E+4')
return mynum.__trunc__() if not mynum % 1 else float(mynum)

print dropzeros(22000.000)
22000
print dropzeros(2567.8000)
2567.8
``````

note: casting the return value as a string will limit you to 12 significant digits

• Converting to float loses precision. Also, your examples pass floats to `dropzeros`, not decimals. Feb 13, 2015 at 9:01
• This is what I was looking for, because it returns the number as float instead of string ! Thanks !! Jul 29, 2015 at 8:06

Slightly modified version of A-IV's answer

NOTE that `Decimal('0.99999999999999999999999999995').normalize()` will round to `Decimal('1')`

``````def trailing(s: str, char="0"):
return len(s) - len(s.rstrip(char))

def decimal_to_str(value: decimal.Decimal):
"""Convert decimal to str

* Uses exponential notation when there are more than 4 trailing zeros
* Handles decimal.InvalidOperation
"""
# to_integral_value() removes decimals
if value == value.to_integral_value():
try:
value = value.quantize(decimal.Decimal(1))
except decimal.InvalidOperation:
pass
uncast = str(value)
# use exponential notation if there are more that 4 zeros
return str(value.normalize()) if trailing(uncast) > 4 else uncast
else:
# normalize values with decimal places
return str(value.normalize())
# or str(value).rstrip('0') if rounding edgecases are a concern

``````
• The rounding to 1 will happen because of the contexts precision, setting e.g. decimal.getcontext().prec = 100 will cause it to not round there, at the expense of performance Oct 26 at 14:11

You could use `:g` to achieve this:

``````'{:g}'.format(3.140)
``````

gives

``````'3.14'
``````
• This is the same response than @Friedrich, so the same error Jun 27, 2022 at 11:50

This should work:

``````'{:f}'.format(decimal.Decimal('2.5') * 10).rstrip('0').rstrip('.')
``````
• Nope, Decimal('10') outputs as '1' using this approach. Dec 1, 2014 at 6:05
• Correct. I'll leave my answer here so that the world can see why not to do this :) Dec 2, 2014 at 12:09
• This answer is equivalent to the accepted one, and the issue is equivalent to the 5-th comment to it. I see no reason why not to delete it. May 27, 2015 at 11:33

Just to show a different possibility, I used `to_tuple()` to achieve the same result.

``````def my_normalize(dec):
"""
>>> my_normalize(Decimal("12.500"))
Decimal('12.5')
>>> my_normalize(Decimal("-0.12500"))
Decimal('-0.125')
>>> my_normalize(Decimal("0.125"))
Decimal('0.125')
>>> my_normalize(Decimal("0.00125"))
Decimal('0.00125')
>>> my_normalize(Decimal("125.00"))
Decimal('125')
>>> my_normalize(Decimal("12500"))
Decimal('12500')
>>> my_normalize(Decimal("0.000"))
Decimal('0')
"""
if dec is None:
return None

sign, digs, exp = dec.as_tuple()
for i in list(reversed(digs)):
if exp >= 0 or i != 0:
break
exp += 1
digs = digs[:-1]

if not digs and exp < 0:
exp = 0

return Decimal((sign, digs, exp))
``````

Why not use modules 10 from a multiple of 10 to check if there is remainder? No remainder means you can force int()

``````if (x * 10) % 10 == 0:
x = int(x)
``````

x = `2/1`
Output: `2`

x = `3/2`
Output: `1.5`