Python's `fractions`

module is designed to work with exact rationals (whether Fraction, Decimal, or otherwise), not approximate floats. So, they intentionally don't have a constructor that takes a pair of `float`

s, or a string fraction made of two floats.

However, they *do* have a constructor that takes a single `float`

, or a single string float. If you know that's what you really want, you can do this:

```
>>> f = Fraction('1') / Fraction('1.6')
Fraction(5, 8)
>>> f = Fraction(1) / Fraction(1.6)
Fraction(2251799813685248, 3602879701896397)
```

You'll probably notice that `Fraction('1.6')`

returns something very different from `Fraction(1.6)`

. The former returns the simplest fraction that would be rendered as "1.6"; the latter returns the simplest fraction that matches the inexact float value 1.6.

So:

```
>>> a = ['1/1.6', '1/2.5', '3/4', '1.1/10']
>>> nd = [x.split('/') for x in a]
>>> nd
[['1', '1.6'], ['1', '2.5'], ['3', '4'], ['1.1', '10']]
>>> f = [Fraction(x[0]) / Fraction(x[1]) for x in nd]
>>> f
[Fraction(5, 8), Fraction(2, 5), Fraction(3, 4), Fraction(11, 100)]
>>> sorted(f)
[Fraction(11, 100), Fraction(2, 5), Fraction(5, 8), Fraction(3, 4)]
```

Putting it all together, if you want to sort a list of strings by what their equivalent values as fractions of decimals would be:

```
>>> def fractionize(s):
>>> n, d = s.split('/')
>>> return Fraction(n) / Fraction(d)
>>> sorted(a, key=fractionize)
['1.1/10', '1/2.5', '1/1.6', '3/4']
```

Of course if you need to do a lot of this kind of thing, you might want to write your own fraction module (or look at the thousands of online recipes for one that's already written) that can just process '1/1.6' in the way you want, so you don't need the `fractionize`

function.