I am working on Project Euler #26 and need to calculate a decimal fraction part.

Using Python, how do divide 1 by 7 and tell the function to just keep giving me the decimal fraction part, until I return from the function?

Using the below I can the first 17 digits of a decimal fraction part:

from __future__ import division

# 0.14285714285714285

Instead, I want to write a function that doesn't stop until I return from it, and this function just keeps on generating the decimal fraction part.

  • 4
    You mean something like : print "%.50f"%(1.0/7)
    – ZdaR
    Nov 13, 2015 at 17:11
  • Excellent! Thanks! Totally works. Nov 13, 2015 at 17:13

2 Answers 2


You can generate an infinite number of digits using the same method you learned in school: long division. Simply take the remainder from each division and shift it one digit (multiply by 10), and divide to get a new remainder.

def infinite_divide(numerator, denominator):
    if numerator > denominator:
        raise ValueError('This function only returns digits after the decimal')
    while numerator != 0:
        numerator *= 10
        digit, numerator = divmod(numerator, denominator)
        yield digit

Here's an example of it in use. I use islice to limit the results to 50 digits, otherwise it would happily keep generating digits until you ran out of memory.

>>> from itertools import islice
>>> '0.' + ''.join(str(digit) for digit in islice(infinite_divide(1, 7), 50))
  • 1
    This is a better approach for this particular problem than Decimal. Leaving my answer up as well in case it's useful for others who land here, but this should be the accepted answer.
    – Randy
    Nov 13, 2015 at 20:43

The comment to use float formatting won't work correctly in all cases since floats can't represent arbitrarily precise decimals (e.g., 1/7 should be a repeating decimal, but it breaks down after a while):

In [1]: print "%.50f"%(1.0/7)

You can instead use Python's built-in decimal to get arbitrary precision:

In [2]: from decimal import Decimal, getcontext

In [3]: Decimal(1)/Decimal(7)
Out[3]: Decimal('0.1428571428571428571428571429')

In [4]: getcontext().prec = 100

In [5]: Decimal(1)/Decimal(7)
Out[5]: Decimal('0.1428571428571428571428571428571428571428571428571428571428571428571428571428571428571428571428571429')
  • In fact a float breaks down even more obviously if you print more digits. The IEEE float format will never have more than 54 non-zero digits, so if you used a format of %.60f you'd start seeing those zeros. Aug 11, 2021 at 16:34

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