# 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). –  user7116 Jun 27 '12 at 13:46

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 '12 at 13:59
@Eric good point. Simplified. –  Rod Hyde Jun 27 '12 at 14:02
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. –  b10hazard Jun 27 '12 at 14:06
This should contain a conditional `if '.' in s`, otherwise it will change `1500` into `15`. –  gerrit Nov 20 '12 at 9:54

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. –  b10hazard Jun 27 '12 at 13:53
Your other option is: `Decimal('5.000').quantize(Decimal('1.'))`. –  user7116 Jun 27 '12 at 14:58

This should work:

``````'{:f}'.format(decimal.Decimal('2.5') * 10).rstrip('0').rstrip('.')
``````
-
``````>>> def remove_exponent(d):
...    return d.quantize(Decimal(1)) if d == d.to_integral() else d.normalize()

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

>>> remove_exponent(Decimal('5E+3'))
Decimal('5000')
``````
-

### 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

-