I’m writing in Python3. I created two lists in my code and I want to ‘connect’ them in a loop as fractions. Is there any possibility to do it in another way than using Fractions library? Unfortunately I can’t use it because it’s the task requirement. The problem comes up when fraction is a floating point number (for example 1/3). How can I solve this problem?

Here's an example:

p = [1,2,3]
q = [3,5,9]

frac = []
    for i in p:
      for j in q:
        f = i/j
        if f not in frac:

4 Answers 4


You can use the fractions.Fraction type.

  1. import this using: from fractions import Fraction
  2. cast your f equation f = p/q with Fraction; f = Fraction(p/q)
  3. then use the string conversion as well; f = str(Fraction(p/q))

    from fractions import Fraction
    f = str(Fraction(p/q))
  • Yeah, I know but I can't do it in this particular task.
    – olczig
    May 26, 2020 at 20:06

If I understood correctly your problem is not on "how to convert floats to fractions" but yes "how to get a string representation of fraction from arrays of numbers", right?

Actually you can do that in one line:

p = [1,2,3]
q = [3,5,9]

list(map(lambda pair: f"{pair[0]}/{pair[1]}", [(x, y) for x in p for y in q])))


map - receives a function and an iterator, passing each element of the iterator to that function.

[(x, y) for x in p for y in q] - this is a list comprehension, it is generating pairs of numbers "for each x in array p for each y in array q".

lambda pair - this is an anonymous function receiving an argument pair (which we know will be a tuple '(x, y)') and returns the string "x/y" (which is "pair[0]/pair[1]")

Optional procedures

Eliminate zeros in denominator

If you want to avoid impossible fractions (like anything over 0), the list comprehension should be this one:
[(x, y) for x in p for y in q if x != 0]

Eliminate duplicates

Also, if on top of that you want to eliminate duplicate items, just wrap the entire list in a set() operation (sets are iterables with unique elements, and converting a list to a set automatically removes the duplicate elements):
set([(x, y) for x in p for y in q if x != 0])

Eliminate unnecessary duplicate negative signs

The list comprehension is getting a little bigger, but still ok:
set([(x, y) if x>0 or y>0 else (-x,-y) for x in p for y in q if x != 0])
Explaining: if x>0 or y>0, this means that only one of them could be a negative number, so that's ok, return (x,y). If not, that means both of them are negative, so they should be positive, then return (-x,-y).


The final result of the script is:

p = [1, -1, 0, 2, 3]
q = [3, -5, 9, 0]

print(list(map(lambda pair: f"{pair[0]}/{pair[1]}", set([(x, y) if x>0 or y>0 else (-x,-y) for x in p for y in q if y != 0]))))

# output:
# ['3/-5', '2/-5', '1/5', '1/-5', '0/3', '0/9', '2/3', '2/9', '3/3', '-1/3', '-1/9', '0/5', '3/9', '1/3', '1/9'] 

  • Yes, you're right. Thank you for solving my problem. How can I improve your solution to show for example -1/-6 as 1/6. Because in the case of negative numbers it's pointless to show "-" 2 times.
    – olczig
    May 26, 2020 at 20:40
  • Just added this to the awnser, also I fixed a mistake on the first procedure (eliminate zeros over anything). It should be the opposite "anything over zero".
    – Teodoro
    May 26, 2020 at 20:47
  • Thank you for your help! :)
    – olczig
    May 26, 2020 at 21:02
  • Glad to help! If you could mark the answer as the correct one I would appreciate :) Good studying!
    – Teodoro
    May 26, 2020 at 21:04

(0.33).as_integer_ratio() could work for your problem. Obviously 0.33 would be replaced by whatever float.

Per this question,

def float_to_ratio(flt):
    if int(flt) == flt:
        return int(flt), 1
    flt_str = str(flt)
    flt_split = flt_str.split('.')
    numerator = int(''.join(flt_split))
    denominator = 10 ** len(flt_split[1])
    return numerator, denominator

this is also a solution.

  • Thank you for this solution. How can I improve this code to show fractions in this way "1/3" not this "(1, 3)".
    – olczig
    May 26, 2020 at 20:12
  • If you want the fractions to be in their simplest form, you can also divide both numerator and denominator by their GCD (Greatest Common Divisor) before returning. Mar 6, 2023 at 17:20

You can use a loop to figure out the fraction by the simple code below

x = 0.6725
a = 0
b = 1
while (x != a/b):
    if x > a/b:
        a += 1
    elif x < a/b:
        b += 1
print(a, b)

The result of a and b is going to be

269 400
  • Your code takes a long time with x = math.pi. This brute-force way of finding a rational approximation is not very efficient May 26, 2020 at 20:58
  • This is a very simple algorithm that does the job but the efficiency is a tradeoff of course
    – Youstanzr
    May 26, 2020 at 21:07

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