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Is there an easy way or integrated function to find out the decimal places of a floating point number?

The number is parsed from a string, so one way is to count the digits after the '.' sign, but that looks quite clumsy to me. Is there a possibility to get the information needed out of a float or Decimal object?

SOLUTION (one of them, of course :) )

I chose to use the python decimal.Decimal class to help me with my problem:

e = abs(Decimal(string_value).as_tuple().exponent)

NOTE: this only works when the parameter from which the Decimal is constructed is a string and not a float (which would lead to floating point inaccuracies).

Thanks a lot for all other contributions.

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Not sure in python, but be very careful about localization here as some cultures give a different meaning to the "," and "." characters when interpreting numbers –  jglouie May 31 '11 at 15:35
Yes, you are right, but in my case I can be sure to get the values in the displayed number format. But thank you anyway for the info. :) –  Constantinius May 31 '11 at 15:38
You may be falling prey to the old precision/accuracy trap. In short, precision is how many digits follow the dot. Accuracy is how many of those digits are actually "correct". Floating point representation is one of those areas where computers only approximate the intended value. –  JS. May 31 '11 at 19:49
If you think the solution is starting from a string value, why don't you just find the number of digits from the string directly, instead of going the way through a Decimal type? –  Alexander Jun 1 '11 at 10:02
As I stated in my question, I think such an approach is too clumsy. and it does not comply to numbers without decimal places or numbers in another format (e.g: scientific). The Decimal class seems to be a good abstraction. –  Constantinius Jun 1 '11 at 12:35

6 Answers 6

up vote 14 down vote accepted

To repeat what others have said (because I had already typed it out!), I'm not even sure such a value would be meaningful in the case of a floating point number, because of the difference between the decimal and binary representation; often a number representable by a finite number of decimal digits will have only an infinite-digit representation in binary.

In the case of a decimal.Decimal object, you can retrieve the exponent using the as_tuple method, which returns a namedtuple with sign, digits, and exponent attributes:

>>> d = decimal.Decimal('56.4325')
>>> d.as_tuple().exponent
>>> d = decimal.Decimal('56.43256436')
>>> d.as_tuple().exponent

The negation of the exponent is the number of digits after the decimal point, unless the exponent is greater than 0.

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BTW, I've tried to make the exponent go above 0, but I haven't been able to. I'm not sure it ever does. Anyone know how that side of things works? –  senderle May 31 '11 at 16:02
Also, I'm running ancient Python; in 2.7 and above, Decimal objects have a from_float classmethod that directly converts floats to Decimal objects. –  senderle May 31 '11 at 16:06
This is an interesting solution. I will try it and post if I succeded. +1 for now. –  Constantinius May 31 '11 at 16:06
This is different from in my Python (version 3.2): decimal.Decimal(56.4325) gives Decimal('56.43249999999999744204615126363933086395263671875') and as_tuple().exponent returns -47 –  Alexander May 31 '11 at 16:07
I think it won't go above 0, because the digits element of the tuple is supposed to represent all the digits in the decimal. If they had an exponent of 5 that would imply that 5 zeros would not be found in the digits element of the tuple. –  Brian Fisher May 31 '11 at 16:08

"the number of decimal places" is not really a property a floating point number has, because of the way they are stored and handled internally. You can get as many decimal places as you like from a floating point number. The question is how much accuracy you want. When converting a floating point number to a string, part of the process is deciding on the accuracy.

Try for instance:

1.1 - int(1.1)

And you will see that the answer is:


So, for this case, the number of decimals is 17. Is this the number you want?

Probably not.

You can, however, round the number to a certain number of decimals with "round":

round(3.1415 - int(3.1415), 3)

For this case, the number of decimals is cut to 3.

You can't get "the number of decimals from a float", but you can decide the accuracy and how many you want. Converting a float to a string is one way of making such a decision.

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This is an excellent post, since it points out, that my questions was wrong. But unfortunately it does not help me with my problem. (+1) –  Constantinius May 31 '11 at 15:56
+1 as you make good points here –  Mike Pennington May 31 '11 at 16:07

A naive way (vulnerable to localized usage mentioned by @jglouie) is


where foo is a string like "23.512999238".


As @Thomas Jung and @Mark Ransom mentioned, this is rather naive for some corner cases, which need to be handled as...

import re
from locale import localeconv
dec_pt = localeconv()['decimal_point']
decrgx = re.compile("\d+(%s\d+)?e(-|\+)(\d+)" % dec_pt)
if decrgx.search(foo):
    # still figuring this out
    raise NotImplementedError, "e notation not implemented"
    digits = len(foo.split(dec_pt)[-1])
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As I mentioned, i was asking for a less 'naive' solution. But +1 anyway, since your solution was better than my clumsy attempts to count the digits. –  Constantinius May 31 '11 at 15:42
Doesn't work for my number 1e-110. –  Thomas Jung May 31 '11 at 15:47
@Constantinius, if you have a specific circumstance where this breaks, perhaps we can work something out... but I don't know of a specific library to solve this problem –  Mike Pennington May 31 '11 at 15:53
@Thomas Jung, thanks for pointing that out... I am still thinking about what the proper solution it –  Mike Pennington May 31 '11 at 16:03
You need to handle 1.0001e+110 as well as 1e-110. You should split on locale.localeconv()['decimal_point'] instead of '.' to be truly robust. –  Mark Ransom May 31 '11 at 22:14

The decimal library is for working with decimal numbers, like in Accounting. It doesn't inherently have a function to return the number of decimal places. This is especially a problem when you realize that the context it runs under sets it at whatever the user wants.

If you get a string, you can convert to decimal, but this will either tack on zeros to get you to your accuracy, or use the rounding setting to truncate it.

Your best bet would probably bet splitting on the dot in your string and counting the number of chars in the resulting substring.

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If you know you're not going to have parsing issues (or if you're letting python itself or some other library handle that for you, hopefully handling localization issues)... just parse it and use modf. The return value is a pair of values, one of which is the integral part, the other is the fractional part.

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This is interesting, but in my case not useful, since I still have the float from which I cannot get the number of decimal digits. –  Constantinius May 31 '11 at 16:05

Since Python floating point numbers are internally represented as binary rather than decimal, there's really no shortcut other than converting to decimal. The only built-in way to do that is by converting to a string. You could write your own code to do a decimal conversion and count the digits, but it would be a duplication of effort.

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