Using Python define named fraction Defining using function without using import and return with format of a/b Examples

fraction(9,24) result = > 3/8

I'm not really good at English so I don't really know what fraction really is. My school only taught in my country's language.

def fraction(a,b):
    return a ? b ?

closed as too broad by Peter Wood, Bsquare ℬℬ, microspino, VDWWD, Federico Grandi Feb 11 at 15:09

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Without fraction modules, call factorise(9,24) will return a_ret as 3 and b_ret as 8.

def prime_factors(n):
    i = 2
    factors = []
    while i * i <= n:
        if n % i:
            i += 1
            n //= i
    if n > 1:
    return factors

def factorise(a,b):
    a_list = prime_factors(a)
    a1_list = a_list
    b_list = prime_factors(b)
    b1_list = b_list
    for x in a_list:
        if x in b1_list: 
    for x in b_list:
        if x in a1_list: 
    a_ret = 1
    b_ret = 1
    for x in a1_list:
        a_ret *= x
    for x in b1_list:
        b_ret *= x
  • 3
    I hope it does not output 1/3, but 3/8 – user8408080 Feb 11 at 12:29
  • Sorry, I tried (8,24) in local shell – Santhosh Kumar Feb 11 at 12:30
  • can you do without using import Fraction? – mr.yellow mandoes Feb 12 at 13:53
  • updated my answer. – Santhosh Kumar Feb 12 at 15:39

A fraction is a number written as a/b so the decimal 0.4 equals the fraction 4/10 equals the reduced (simplest) fraction 2/5.

There are a number of ways to do what you want. The simplest is probably to use the fractions.Fraction class (although this may be considered cheating if this is a school exercise):

from fractions import Fraction

def fraction(a, b):
    ''' return simplest fraction as a string of the form a/b '''
    fr = Fraction(a, b)
    return '{}/{}'.format(fr.numerator, fr.denominator)


fraction(9, 27) # --> '1/3'
  • 1
    I think you know that they are meant to implement the algorithm themselves and not rely upon a library. – Peter Wood Feb 11 at 12:30
  • @PeterWood yeah you may be right, but I didn't want to do that because it would defeat the point of the exercise. – FHTMitchell Feb 11 at 12:31
  • I been figure out all day I wonder if anyone can show me without using from fractions import fraction – mr.yellow mandoes Feb 12 at 13:52

Without using the fractions module, you can just calculate the greatest common divisor of a and b and divide both numbers by that to "normalize" the fraction.

def fraction(a, b):
    g = gcd(a, b)
    return "%d / %d" % (a // g, b // g)


>>> gcd(9, 24)
>>> fraction(9, 24)
'3 / 8'

Implementation of gcd is left as an excercise to the reader (or use math.gcd)


We can find the most reduced form of a fraction by seeing if any number up to a the smallest value divides both - we can then call fraction recursively to handle further iterations:

def fraction( numerator, denominator):
    min_val = min(numerator, denominator)
    # We go from 2 -> min_val here, 
    # skipping 1 because every number is divisible by one and it gets us nowhere
    for divisor in range(2, min_val+1):
        if (numerator % divisor == 0 and denominator % divisor == 0):
            # We know the fraction can be reduced, 
            # because divisor divides both numerator and denominator
            return(fraction(numerator / divisor, denominator / divisor))
    return('{}/{}'.format(numerator, denominator))

Test the output:

>>> fraction(5, 10)

If you have any questions let me know, recursion is a little weird sometimes but it's powerful and makes our life a lot simpler

  • already tried on Repl.it and it doesn't work. Is there a lining problem? – mr.yellow mandoes Feb 11 at 14:52
  • Traceback (most recent call last): File "<stdin>", line 1, in <module> File "main.py", line 9, in fraction return(fraction(numerator / divisor, denominator / divisor)) File "main.py", line 5, in fraction for divisor in range(2, min_val+1): TypeError: 'float' object cannot be interpreted as an integer – mr.yellow mandoes Feb 11 at 14:53
  • I don't know what that is, it works fine for me on my machine - what is the error? Is it python 3 or python 2? – Adam Dadvar Feb 11 at 14:53
  • 1
    are you still there sir I don't understand can you edit your code? – mr.yellow mandoes Feb 12 at 13:12
  • 1
    This will take rather long if a and b are both large co-prime numbers. Probably better use Euclid's Algorithm. – tobias_k Feb 12 at 14:04

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