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I recently came across an interview question asked by Google and I am not able to find an optimized algorithm to solve this question:

Given 2 numbers a and b. Divide a and b and return result in form of a string.

Example 1

Input: a=100 , b=3
Output: 33.(3)   
Note: (100/3)=33.33333....Here 3 is in brackets because it gets repeated continuously.

Example 2

Input: a=5 , b=10
Output: 0.5

Example 3

Input: a=51 , b=7
Output: 7.(285714)
Note: 51/7 = 7.285714285714285714285714285714......... Here 285714 is in brackets because it is repeating.

It would be great if anyone can think of a time-optimized algorithm for this question. Thank You in advance.

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marked as duplicate by n.m., Lundin, Stephen Ostermiller, David, Oz123 Jun 26 '14 at 13:43

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Did you check Stern–Brocot tree? – Rahul Tripathi Jun 26 '14 at 9:28
It is not really clear what is the specification and what is your own comments. The problem is what? The division? The number of decimals? The parenthesis formatting? Where did 7.(285714) come from and what determined the number of decimals? Because they are one sequence, or what? – Lundin Jun 26 '14 at 9:29
@n.m. Especially since you'll only get just so many decimals out of your double-precision float... I would imagine you'd need a special floating point library to even get a result string "long enough". – Lundin Jun 26 '14 at 9:40
Who has said something about floats? Not me. – n.m. Jun 26 '14 at 9:47
@Lundin I agree the question is of little to no relevance to SO (though it might be relevant to Google). – n.m. Jun 26 '14 at 10:57

2 Answers 2

up vote 4 down vote accepted

You can simply perform long division by hand, which is O(N) on the number of digits -- it's hard to see how you could do better than that.

The only problem with long division is that it would not terminate ever if the fraction is a repeating decimal, but you can easily detect this before starting (the fraction is a repeating decimal iff b has any factors other than 2 and 5). If it is a repeating decimal, you need to keep a list of interim remainders that you have already seen. When you encounter one that you have seen before, you know that you have just found the end of the repeating period.

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+1 for it's hard to see how you could do better than that!!! – Am_I_Helpful Jun 26 '14 at 9:35

You might try to keep track of the last N digits in the quotient (N being equal to the number of the digits in the divisor) and the remainder, once you hit the same combination ( last N digits + remainder) your number sequence is going to repeat (I don't have a hard proof for that, but interview questions aren't supposed to be very hard...)

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+1 for you,Yeah tracking of last N digits seems to be the viable option! – Am_I_Helpful Jun 26 '14 at 9:34
But floating point calculations are not that accurate! With 100 and 3, printing as %.20g shows 33.333333333333336, which is not equal to 33.(3). – Jongware Jun 26 '14 at 10:20
You don't do float division, you do integer division by modulo and note the result and the reminder. – Ashalynd Jun 26 '14 at 12:07

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