# Calculate Space and Time complexity and Improve efficiency of this program

Problem

Find a list of non repeating number in a array of repeating numbers.

My Solution

``````   public static int[] FindNonRepeatedNumber(int[] input)
{
List<int> nonRepeated = new List<int>();
bool repeated = false;

for (int i = 0; i < input.Length; i++)
{
repeated = false;

for (int j = 0; j < input.Length; j++)
{
if ((input[i] == input[j]) && (i != j))
{
//this means the element is repeated.
repeated = true;
break;
}
}

if (!repeated)
{
}
}

return nonRepeated.ToArray();
}
``````

Time and space complexity Time complexity = O(n^2) Space complexity = O(n)

I am not sure with the above calculated time complexity, also how can I make this program more efficient and fast.

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Are you at the interview right now? :D –  Robert Harvey Jun 18 '12 at 17:11
I'm sorry, but what is the actual question you are asking? –  jsalonen Jun 18 '12 at 17:11
To be clear: Is this C++? Does it have to be in C++ or can it be in any language or in pseudo-code? –  Matt Coughlin Jun 18 '12 at 17:11
pseudo code.... –  Yasser Jun 18 '12 at 17:14
Ah, much better. –  Robert Harvey Jun 18 '12 at 17:21

The complexity of the Algorithm you provided is `O(n^2)`.

Use Hashmaps to improve the algorithm. The Psuedo code is as follows:

``````public static int[] FindNonRepeatedNumbers(int[] A)
{
Hashtable<int, int> testMap= new Hashtable<int, int>();

for (Entry<Integer, String> entry : testMap.entrySet()) {
tmp=testMap.get(A[i]);
testMap.put(A[i],tmp+1);
}

/* Elements that are not repeated are:

Set set = teatMap.entrySet();
// Get an iterator
Iterator i = set.iterator();
// Display elements
while(i.hasNext()) {
Map.Entry me = (Map.Entry)i.next();
if(me.getValue() >1)
{
System.out.println(me.getValue());
}
}
``````

Operation: What I did here is I used Hashmaps with keys to the hashmaps being the elements of the input array. The values for the hashmaps are like counters for each element. So if an element occurs once then the value for that key is 1 and the key value is subsequently incremented based on recurrence of element in input array.

So finally you just check your hashmap and then display elements with hashvalue 1 which are non-repated elements. The time complexity for this algorithm is `O(k)` for creating hashmap and `O(k)` for searching, if the input array length is `k`. This is much faster than `O(n^2)`. The worst case is when there are no repeated elements at all. The psuedo code might be messy but this approach is the best way I could think of.

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Time complexity O(n) means you can't have an inner loop. A full inner loop is O(n^2).

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i have updated the question –  Yasser Jun 18 '12 at 17:31

two pointers. begining and end. increment begining when same letters reached and store the start and end pos ,length for reference... increment end otherwise.. keep doing this til end of list..compare all the outputs and you should have the longest continuous list of unique numbers. I hope this is what the question required. Linear algo.

``````void longestcontinuousunique(int arr[])
{
int start=0;
int end =0;
while (end! =arr.length())
{
if(arr[start] == arr[end])
{
start++;
savetolist(start,end,end-start);
}
else
end++
}

return maxelementof(savedlist);
}
``````
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in case you want the first list.. just output it as soon as you find one. –  Kshitij Banerjee Jun 18 '12 at 17:56