## Introduction

In this article, I will walk you through how to solve a typical software development interview question: Repeating Decimals.

In order to solve this example, I decided to use Python (all the code is available here). If you want, feel free to try to solve this same exercise using any other programming language of your choice.

## The Problem

Create a function able to take two numbers (the numerator and denominator of a fraction) that returns the results of the fraction in decimal form, enclosing in parenthesis any repeating decimal.

```
Examples:
1) 1/3 = 0.(3)
2) 1/4 = 0.25
3) 1/5 = 0.2
4) 1/6 = 0.1(6)
5) 1/7 = 0.(142857)
6) 1/8 = 0.125
```

I will now walk you through a simple implementation to solve this problem. If you are able to create a more time and memory efficient solution, feel free to share it in the comment section below.

## The Solution

Let's start by creating a function (*repeating_dec_sol*) and handling some simple exceptions:

- If the numerator is zero, return zero.
- If the denominator is zero, return Undefined (same if both numerator and denominator are equal to zero).
- If the remainder is zero, (the numerator is divisible by the denominator) return directly the result of the division.
- If the numerator or denominator return a negative number when divided, add a minus sign at the beginning of the returned result (this will be done at the end of the code).

```
def repeating_dec_sol(numerator, denominator):
negative = False
if denominator == 0:
return 'Undefined'
if numerator == 0:
return '0'
if numerator*denominator < 0:
negative = True
if numerator % denominator == 0:
return str(numerator/denominator)
num = abs(numerator)
den = abs(denominator)
```

Now, we can simply store our output for all the digits before the decimal point by concatenating the quotient of the numerator and denominator to a string called *result *(which will be used later on to store the entire result of the operation).

```
result = ""
result += str(num // den)
result += "."
```

In order to handle the part after the decimal point, we will now start keeping track of every new numerator and quotient (quantity produced by the division of the two numbers) after the decimal point.

As we can see from the picture below (Figure 1), every-time there is a repeating decimal, same values of the new numerators and the quotients will be repeated multiple times.

In order to model this behaviour in Python, we can start by creating an empty list (*quotient _num*) which we are going to update with all the new numerators and quotients registered after the decimal point (using a list inside a list).

Every time we are going to append a list containing a new numerator and quotient, we are going to check if are present in any other list the same combination of new numerator and quotient and if that's the case we will then break the execution (this flags us that we have reached a repeating decimal).

```
quotient_num = []
while num:
# In case the remainder is equal to zero, there are no repeating
# decimals. Therefore, we don't need to add any parenthesis and we can
# break the while loop and return the result.
remainder = num % den
if remainder == 0:
for i in quotient_num:
result += str(i[-1])
break
num = remainder*10
quotient = num // den
# If the new numerator and quotient are not already in the list, we
# append them to the list.
if [num, quotient] not in quotient_num:
quotient_num.append([num, quotient])
# If the new numerator and quotient are instead already in the list, we
# break the execution and we prepare to return the final result.
# We take track of the index position, in order to add the parenthesis
# at the output in the right place.
elif [num, quotient] in quotient_num:
index = quotient_num.index([num, quotient])
for i in quotient_num[:index]:
result += str(i[-1])
result += "("
for i in quotient_num[index:]:
result += str(i[-1])
result += ")"
break
```

Finally, we can add the following code to handle the exception in case either the input numerator or denominator are negative numbers.

```
if negative:
result = "-" + result
return result
```

If we now test our function we will get the following result:

```
NUM, DEN = 1, 6
print("The result of the fraction", NUM, "/", DEN, "is equal to: ",
repeating_dec_sol(NUM, DEN))
# Output
# The result of the fraction 1 / 6 is equal to: 0.1(6)
```

## Conclusion

I hope you enjoyed this article. If you have any questions, feel free to leave a comment below. If you are looking also for a video explanation on how to solve this type of problem, this video by PyLenin is a great place to start.

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## Bibliography

[1] 33 1 3 Percent As A Fraction Math Image Titled Change A Common Fraction Into A Decimal Step 8 Mathpapa Slope - lugezi.com. Accessed at: http://novine.club/wp-content/uploads//2018/09/33-1-3-percent-as-a-fraction-math-image-titled-change-a-common-fraction-into-a-decimal-step-8-mathpapa-slope.jpg