Trying to use a format specifier to print a float that will be less than 1 without the leading zero. I came up with a bit of a hack but I assume there is a way to just drop the leading zero in the format specifier. I couldn't find it in the docs.


>>> k = .1337
>>> print "%.4f" % k


>>> print ("%.4f" % k) [1:]
  • What happens when your value is 0? – Gabe Apr 24 '12 at 18:33
  • 3
    After studying the documentation, it seems that there is no canonical way to do this. – mayhewsw May 13 '14 at 21:09
  • to clarify in the event of minus numbers like -0.1 do you want -.1000? – nettux May 14 '14 at 0:19
  • 2
    Yes, I think the most surprising thing is that this isn't possible with format specifiers alone. – Paul Seeb May 16 '14 at 3:40

13 Answers 13


As much as I like cute regex tricks, I think a straightforward function is the best way to do this:

def formatFloat(fmt, val):
  ret = fmt % val
  if ret.startswith("0."):
    return ret[1:]
  if ret.startswith("-0."):
    return "-" + ret[2:]
  return ret

>>> formatFloat("%.4f", .2)
>>> formatFloat("%.4f", -.2)
>>> formatFloat("%.4f", -100.2)
>>> formatFloat("%.4f", 100.2)

This has the benefit of being easy to understand, partially because startswith is a simple string match rather than a regex.


Here is another way:

>>> ("%.4f" % k).lstrip('0')

It is slightly more general than [1:] in that it also works with numbers >=1.

Neither method correctly handles negative numbers, however. The following is better in this respect:

>>> re.sub('0(?=[.])', '', ("%0.4f" % -k))

Not particularly elegant, but right now I can't think of a better method.

  • 3
    The regex here will not work correctly on numbers with absolute value greater than ten that have a zero in the ones place. For example, 100.1337 becomes 10.1337. – musicinmybrain May 12 '14 at 13:42
  • I edited the regex to work with all real number inputs. Awaiting peer review. (re.sub(r'^(-?)0(?=\.)', r'\1', ...)) – musicinmybrain May 12 '14 at 13:47
  • 1
    @musicinmybrain You should write up your own answer with that regex – Rob Watts May 13 '14 at 19:52
  • 1
    @musicinmybrain Editing another person's answer is for cleaning-up when something could be stated in a better way, not for fundamentally changing the answer. I agree with Rob Watts that you should create your own answer. – jrennie May 15 '14 at 8:06

One viable option which works without regex and with negative numbers greater than 10

k = -.1337
("%.4f" % k).replace("-0","-").lstrip("0")
  • . is a regex metacharacter. Do you realize what would happen if k is -100.1337? – devnull May 13 '14 at 19:17
  • @devnull I accepted the answer 2 years ago. I actually didn't use his answer at the time because I didn't have to deal with negative numbers. Using replace wouldn't have any issues. I am not sure why you commented on this other than to get my attention to cancel my previous answer accept? – Paul Seeb May 13 '14 at 20:22
  • I didn't realize that this was an answer to your question. Coming back to my comment, it'd produce -10.1337 for the above example. – devnull May 13 '14 at 20:26

I'd rather go for readable and simple than anything else: Let's handle the sign and the numerics independently. And a little in-line if statement never hurt anyone.

k = -.1337
"".join( ["-" if k < 0 else "", ("%.4f" % abs(k)).lstrip('0')] )
  • It's shorter if you concatenate + rather than using join. 'course, you'll need parenthesis around the sign logic. – jrennie May 15 '14 at 8:11
  • 1
    I looked into using "+" for concatenation, because I've heard that it is not very pythonic. It turns out that using "".join() instead of + is about two orders of magnitude faster, and it also fits better into the style of python. That said, + is totally equivalent and probably easier to think up for almost any use case. – John Haberstroh May 19 '14 at 17:26
import re
re.sub("^(\-?)0\.", r'\1.', "%.4f" % k)

This is short, simple and I can't find a scenario for which it doesn't work.


>>> import re
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 0)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 0.1337)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 1.337)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -0)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -0.1337)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -1.337)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 10.337)
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -10.337)

Edit: If you are only considering numbers > -10 and < 10 The following will work:

("%.4f", k).replace('0.', '.')
  • 1
    @JacobKrall damn you sir! edited to use re.sub and bracket matching works now – nettux May 14 '14 at 0:07

You may use the following MyFloat class instead of the builtin float class.

def _remove_leading_zero(value, string):
    if 1 > value > -1:
        string = string.replace('0', '', 1)
    return string

class MyFloat(float):
    def __str__(self):
        string = super().__str__()
        return _remove_leading_zero(self, string)

    def __format__(self, format_string):
        string = super().__format__(format_string)
        return _remove_leading_zero(self, string)

Using this class you'll have to use str.format function instead of the modulus operator (%) for formatting. Following are some examples:

>>> print(MyFloat(.4444))

>>> print(MyFloat(-.4444))

>>> print('some text {:.3f} some more text',format(MyFloat(.4444)))
some text .444 some more text

>>> print('some text {:+.3f} some more text',format(MyFloat(.4444)))
some text +.444 some more text

If you also want to make the modulus operator (%) of str class to behave the same way then you'll have to override the __mod__ method of str class by subclassing the class. But it won't be as easy as overriding the __format__ method of float class, as in that case the formatted float number could be present at any position in the resultant string.

[Note: All the above code is written in Python3. You'll also have to override __unicode__ in Python2 and also have to change the super calls.]

P.S.: You may also override __repr__ method similar to __str__, if you also want to change the official string representation of MyFloat.

Edit: Actually you can add new syntax to format sting using __format__ method. So, if you want to keep both behaviours, i.e. show leading zero when needed and don't show leading zero when not needed. You may create the MyFloat class as follows:

class MyFloat(float):
    def __format__(self, format_string):
        if format_string.endswith('z'):  # 'fz' is format sting for floats without leading the zero
            format_string = format_string[:-1]
            remove_leading_zero = True
            remove_leading_zero = False

        string = super(MyFloat, self).__format__(format_string)
        return _remove_leading_zero(self, string) if remove_leading_zero else string
        # `_remove_leading_zero` function is same as in the first example

And use this class as follows:

>>> print('some text {:.3f} some more text',format(MyFloat(.4444)))
some text 0.444 some more text
>>> print('some text {:.3fz} some more text',format(MyFloat(.4444)))
some text .444 some more text

>>> print('some text {:+.3f} some more text',format(MyFloat(.4444)))
some text +0.444 some more text
>>> print('some text {:+.3fz} some more text',format(MyFloat(.4444)))
some text +.444 some more text

>>> print('some text {:.3f} some more text',format(MyFloat(-.4444)))
some text -0.444 some more text
>>> print('some text {:.3fz} some more text',format(MyFloat(-.4444)))
some text -.444 some more text

Note that using 'fz' instead of 'f' removes the leading zero.

Also, the above code works in both Python2 and Python3.

  • Doesn't your remove_leading_zeros really remove_all_zeros. Seems clunky and incorrect. – hobs Feb 25 '16 at 0:22
  • @hobs, Please test the code before pointing out any issues, it works as expected. string.replace('0', '', 1) would only remove the first zero and if 1 > value > -1 condition would make sure that it is only applied when the string is in form 0.<some digits>. – Debanshu Kundu Feb 25 '16 at 10:28
  • 2
    Here's my (unfair/unrealistic) test case that produced an incorrect answer: '.402'.replace('0', '', 1) -> .42 . Your code would work for all strings produced by the __str__ on floats as currently defined, but your code is fragile (clunky). It's not idempotent. And it's not future-proof. lstrip is much more concise and robust (idempotent and future-proof). Your replace operation could not be applied more than once. And if your particular number type didn't stringify the way python builtin floats did, well... – hobs Feb 26 '16 at 3:32

Use .lstrip(), after using string formatting to convert to a string:

>>> k = .1827412
>>> print ("%.4f"%(k)).lstrip('0')

.lstrip() can be used to remove any of the leading characters of a string:

>>> k = 'bhello'
>>> print k.lstrip('b')
>>> print k.lstrip('bhel')
>>> print k.lstrip('bel')

From the docs:

string.lstrip(s[, chars])

        Return a copy of the string with leading characters removed


I am surprised nobody suggested a more mathematical way to do it:

n = 0.123456789
'.%d' % (n*1e4)

Looks much nicer to me. :)

But interestingly yours is the fastest.

$ python -mtimeit '".%d" % (0.123456789*1e4)'
1000000 loops, best of 3: 0.809 usec per loop
$ python -mtimeit '("%.4f"%(0.123456789)).lstrip("0")'
1000000 loops, best of 3: 0.209 usec per loop
$ python -mtimeit '("%.4f"%(0.123456789))[1:]'
10000000 loops, best of 3: 0.0723 usec per loop
  • Nice trick for numbers [0,1). It doesn't work outside of that range, though (not for negative numbers, or numbers >= 1.0. – Brent Faust Nov 4 '18 at 15:10

Since we're only considering > -1 to < 1 then the following edit will work.

import re
re.sub(r"0+\.", ".", %0.4f" % k)

This will maintain the sign, only removing the digit to the left of the decimal.

  • The OP only wants to trim digits left of the decimal point when the number is less than 1 and more than -1 eg 0.1 -> .1000 but 1.0 -> 1.0000 – nettux May 14 '14 at 0:11
  • I updated to conform more to the OP @nettux443. Thanks for pointing that out. – NanoBennett May 14 '14 at 16:16

Python's standard lib's str.format() can be used to generate the string conversion of the float value. Then the string can be manipulated to form a final result for either a positive or negative number.

n = -.1234567890
print('{0}'.format('-' if n < 0 else '') + ('{:0.4}'.format(n).split('-')[1 if n < 0 else 0].lstrip('0')))

For Python 3

When you want something simple and don't need negative number support:


There are other solutions when you need negative number support, including the excellent regex by @nettux443.


A super short (although not very pythonic) one-liner, which also handles negative numbers:

k = -.1337
  • For the pythonic version of this line, see original answer by @John Haberstroh. – hgzech Aug 12 '19 at 9:47

The problem is to print a float without the leading zero, regardless of the sign of the float. The leading zero always precedes a decimal point. Split the printed float on '0.', and then rejoin the resulting list around just '.', as in below:

>> flt = -.31415926


>> '%.4f' % flt    # prints leading zero


>> '.'.join( ('%.4f' % flt).split('0.'))    # removes leading zero


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