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']
```