# Print floating point values without leading zero

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.

Issue

``````>>> k = .1337
>>> print "%.4f" % k
'0.1337'
``````

Hack

``````>>> print ("%.4f" % k) [1:]
'.1337'
``````
• What happens when your value is 0? – Gabe Apr 24 '12 at 18:33
• 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
• 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

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)
'.2000'
>>> formatFloat("%.4f", -.2)
'-.2000'
>>> formatFloat("%.4f", -100.2)
'-100.2000'
>>> formatFloat("%.4f", 100.2)
'100.2000'
``````

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')
'.1337'
``````

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))
'-.1337'
``````

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

• 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
• @musicinmybrain You should write up your own answer with that regex – Rob Watts May 13 '14 at 19:52
• @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
• 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.

Examples:

``````>>> import re
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 0)
'.0000'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 0.1337)
'.1337'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 1.337)
'1.3370'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -0)
'.0000'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -0.1337)
'-.1337'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -1.337)
'-1.3370'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % 10.337)
'10.3370'
>>> re.sub("^(\-?)0\.", r'\1.', "%.4f" % -10.337)
'-10.3370'
``````

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

``````("%.4f", k).replace('0.', '.')
``````
• @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__()

def __format__(self, format_string):
string = super().__format__(format_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))
.4444

>>> print(MyFloat(-.4444))
-.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]
else:

string = super(MyFloat, self).__format__(format_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
``````

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
• 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 `float`s 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')
.1827
>>>
``````

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

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

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:

``````f'{k:.4f}'.lstrip('0')
``````

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
"-"*(k<0)+("%.4f"%abs(k)).lstrip('0')
``````
• 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
``````

-0.31415926

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

'-0.3142'

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

'-.3142'