# converting floats to fractions

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:
frac.append(f)

``````

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. 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])))
``````

Explaining:

`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).

# Testing

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. 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". May 26, 2020 at 20:47
• Thank you for your help! :) May 26, 2020 at 21:02
• Glad to help! If you could mark the answer as the correct one I would appreciate :) Good studying! 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)". 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 May 26, 2020 at 21:07