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# Formatting floats in Python without superfluous zeros

How to format a float so it does not containt the remaing zeros? In other words, I want the resulting string to be as short as possible..?

Like:

``````3 -> "3"
3. -> "3"
3.0 -> "3"
3.1 -> "3.1"
3.14 -> "3.14"
3.140 -> "3.14"
``````
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That example doesn't make any sense at all. `3.14 == 3.140` -- They're the same floating point number. For that matter 3.140000 is the same floating-point number. The zero doesn't exist in the first place. – S.Lott Mar 14 '10 at 1:08
@S.Lott - I think the issue is PRINTING the float number without the trailing zeros, not the actual equivalence of two numbers. – pokstad Mar 14 '10 at 1:14
@pokstad: In which case, there's no "superfluous" zero. `%0.2f` and `%0.3f` are the two formats required to produce the last numbers on the left. Use `%0.2f` to produce the last two numbers on the right. – S.Lott Mar 14 '10 at 1:16
`3.0 -> "3"` is still a valid use case. `print( '{:,g}'.format( X )` worked for me to output `3` where `X = 6 / 2` and when `X = 5 / 2` I got an output of `2.5` as expected. – ShoeMaker Feb 27 at 23:51

Me, I'd do `('%f' % x).rstrip('0').rstrip('.')` -- guarantees fixed-point formatting rather than scientific notation, etc etc. Yeah, not as slick and elegant as `%g`, but, it works (and I don't know how to force `%g` to never use scientific notation;-).

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Thanks it works exactly like I wanted! Just a tiny bit unfortunate there is no presentation type for this kind of behaviour.... – TarGz Mar 14 '10 at 1:18
@TarGz, agreed, it would surely be more elegant to have some %-flags for that. For modern Python's approach see docs.python.org/library/… -- but it seems to behave, in regard to your specific problem, just like `'%g' % x` used to, it just has arguably nicer syntax. Plus, you can now subclass `string.Formatter` to do your own customizations. – Alex Martelli Mar 14 '10 at 1:28
The only problem with that is `'%.2f' % -0.0001` will leave you with `-0.00` and ultimately `-0`. – Kos Dec 7 '12 at 13:14
@alexanderlukanin13 because the default precision is 6, see docs.python.org/2/library/string.html: `'f' Fixed point. Displays the number as a fixed-point number. The default precision is 6.` You would have to use '%0.7f' in the above solution. – derenio Aug 31 '15 at 16:55
@derenio Good point :-) I can only add that raising precision above `'%0.15f'` is a bad idea, because weird stuff starts to happen. – alexanderlukanin13 Sep 1 '15 at 15:38

You could use `%g` to achieve this:

``````'%g'%(3.140)
``````

or, for Python 2.6 or better:

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

From the docs for `format`: `g` causes (among other things)

insignificant trailing zeros [to be] removed from the significand, and the decimal point is also removed if there are no remaining digits following it.

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Oh, almost! Sometimes it formats the float in scientific notation ("2.342E+09") - is it possible to turn it off, i.e. always show all significant digits? – TarGz Mar 14 '10 at 0:46

Use %g with big enough width, for example '%.99g'. It will print in fixed-point notation for any reasonably big number.

EDIT: it doesn't work

``````>>> '%.99g' % 0.0000001
'9.99999999999999954748111825886258685613938723690807819366455078125e-08'
``````
-
`.99` is precision, not width; kinda useful but you don't get to set the actual precision this way (other than truncating it yourself). – Kos Dec 7 '12 at 13:11
This is also very wrong, just try printing 0.51 with that. – Antti Haapala Apr 17 '13 at 9:55

If you want to use you own function to dot that, try this:

``````def removezeros(number):
number = '%s' % number
while len(number):
if number[::-1][0] == '0':
number = number[:-1]
elif number[::-1][0] == '.':
number = number[:-1]
break
else:
break
return number
``````
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@gerrit Just a choice. – Rawly Mar 23 at 8:24

What about trying the easiest and probably most effective approach? The method normalize() removes all the rightmost trailing zeros.

``````from decimal import Decimal

print (Decimal('0.001000').normalize())
# Result: 0.001
``````
-

After looking over answers to several similar questions, this seems to be the best solution for me:

``````def floatToString(inputValue):
return ('%.15f' % inputValue).rstrip('0').rstrip('.')
``````

My reasoning:

`%g` doesn't get rid of scientific notation.

``````>>> '%g' % 0.000035
'3.5e-05'
``````

15 decimal places seems to avoid strange behavior and has plenty of precision for my needs.

``````>>> ('%.15f' % 1.35).rstrip('0').rstrip('.')
'1.35'
>>> ('%.16f' % 1.35).rstrip('0').rstrip('.')
'1.3500000000000001'
``````

I could have used `format(inputValue, '.15f').` instead of `'%.15f' % inputValue`, but that is a bit slower (~30%).

I could have used `Decimal(inputValue).normalize()`, but this has a few issues as well. For one, it is A LOT slower (~11x). I also found that although it has pretty great precision, it still suffers from precision loss when using `normalize()`.

``````>>> Decimal('0.21000000000000000000000000006').normalize()
Decimal('0.2100000000000000000000000001')
>>> Decimal('0.21000000000000000000000000006')
Decimal('0.21000000000000000000000000006')
``````

Most importantly, I would still be converting to `Decimal` from a `float` which can make you end up with something other than the number you put in there. I think `Decimal` works best when the arithmetic stays in `Decimal` and the `Decimal` is initialized with a string.

``````>>> Decimal(1.35)
Decimal('1.350000000000000088817841970012523233890533447265625')
>>> Decimal('1.35')
Decimal('1.35')
``````

I'm sure the precision issue of `Decimal.normalize()` can be adjusted to what is needed using context settings, but considering the already slow speed and not needing ridiculous precision and the fact that I'd still be converting from a float and losing precision anyway, I didn't think it was worth pursuing.

I'm not concerned with the possible "-0" result since -0.0 is a valid floating point number and it would probably be a rare occurrence anyway, but since you did mention you want to keep the string result as short as possible, you could always use an extra conditional at very little extra speed cost.

``````def floatToString(inputValue):
result = ('%.15f' % inputValue).rstrip('0').rstrip('.')
return '0' if result == '-0' else result
``````
-

I think there's an easier way to do this with the new `str.format` functionality. If you just convert it with str (e.g. `str(.0300)` -> `0.3`) it does what is desired, mostly. If the number is small or large enough, it will resort to exponential notation, but mostly it will just print a floating point number without trailing (or leading) zeros. If the format string is empty, then it essentially resorts to the output of `str()`, so this should work if that's the desired functionality:

``````'{0}'.format(fp_num)
``````

Even this should work if it's the only thing being formated:

``````'{}'.format(fp_num)
``````
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`>>> "{}".format(4.)` gives `'4.0'` and same: `>>> "{0}".format(4.)` gives `'4.0'` – sebhaase Jul 22 at 8:03

Formatting `"%.f"%num` will be create string without zeros

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This rounds the number to zero decimal places. – Francisco Apr 17 '15 at 2:47