I have tried solving this for so long but I can't seem to be able to.
The question is as follows:
Given an array n numbers where all of the numbers in it occur twice except for one, which occurs only once, find the number that occurs only once.
Now, I have found many solutions online for this, but none of them satisfy the additional constraints of the question.
The solution should:
- Run in linear time (aka O(n)).
- Not use hash tables.
- Assume that computer supports only comparison and the arithmetic (addition, subtraction, multiplication, division).
- The number of bits in each number in the array is about O(log(n)).
Therefore, trying something like this https://stackoverflow.com/a/4772568/7774315 using the XOR operator isn't possible, since we don't have the XOR operator. Since the number of bits in each number is about O(log(n)), trying to implement the XOR operator using normal arithmetic (bit by bit) will take about O(log(n)) actions, which will give us an overall solution of O(nlog(n)).
The closest I have come to solving it is if I had a way to get the sum of all unique values in the array in linear time, I could subtract twice that sum from the overall sum to get (negative) the element that occurs only once, because if the numbers that appear twice are {a1,a2,....,ak} and the number that appears once is x, then the overall sum is
sum=2(a1+...+ak)+x
As far as I know, sets are implemented using hash tables, so using them to find the sum of all unique values is no good.