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I wrote this code in C++ as part of a uni task where I need to ensure that there are no duplicates within an array:

// Check for duplicate numbers in user inputted data
    int i; // Need to declare i here so that it can be accessed by the 'inner' loop that starts on line 21
    for(i = 0;i < 6; i++) { // Check each other number in the array
        for(int j = i; j < 6; j++) { // Check the rest of the numbers
            if(j != i) { // Makes sure don't check number against itself
                if(userNumbers[i] == userNumbers[j]) {
                    b = true;
            if(b == true) { // If there is a duplicate, change that particular number
                cout << "Please re-enter number " << i + 1 << ". Duplicate numbers are not allowed:" << endl;
                cin >> userNumbers[i];
        } // Comparison loop
        b = false; // Reset the boolean after each number entered has been checked
    } // Main check loop

It works perfectly, but I'd like to know if there is a more elegant or efficient way to check.

share|improve this question
up vote 11 down vote accepted

You could sort the array in O(nlog(n)), then simply look until the next number. That is substantially faster than your O(n^2) existing algorithm. The code is also a lot cleaner. Your code also doesn't ensure no duplicates were inserted when they were re-entered. You need to prevent duplicates from existing in the first place.

std::sort(userNumbers.begin(), userNumbers.end());
for(int i = 0; i < userNumbers.size() - 1; i++) {
    if (userNumbers[i] == userNumbers[i + 1]) {
        userNumbers.erase(userNumbers.begin() + i);

I also second the reccomendation to use a std::set - no duplicates there.

share|improve this answer
But if sort is O (n * log( n ) ) and then you have to do a O( n ) check of the array to find the duplicates after isn't your complexity then O( n^2 * log( n ) )? – Goz Oct 23 '10 at 11:05
No, it's O(n*log(n) + n) - you sort THEN search, not sort AND search for every operation of the sort. – Puppy Oct 23 '10 at 11:07
This is certainly faster as 6 approaches infinity ;-) – Steve Jessop Oct 23 '10 at 11:32
@Steve: Whoops, didn't notice that he was hardcoded at 6. – Puppy Oct 23 '10 at 11:33
@DeadMG No, it is not. This were true, if std::vector<T>::erase was O(1) which it is not. It is O(n) in general, which makes your solution O(n^2) in total. Though n is decreasing as you process the array (assume you have each element occuring twice) you have O(1) + O(n-1) for each call of erase. For a O(n log n) solution (which I think is the lower bound) see my answer below. – Paul Michalik Oct 24 '10 at 9:09

The following solution is based on sorting the numbers and then removing the duplicates:

#include <algorithm>

int main()
    int userNumbers[6];

    // ...

    int* end = userNumbers + 6;
    std::sort(userNumbers, end);
    bool containsDuplicates = (std::unique(userNumbers, end) != end);
share|improve this answer
This is the best answer. – Charles Salvia Jun 8 '15 at 18:07

Indeed, the fastest and as far I can see most elegant method is as advised above:

std::vector<int> tUserNumbers;
// ...
std::set<int> tSet(tUserNumbers.begin(), tUserNumbers.end());
std::vector<int>(tSet.begin(), tSet.end()).swap(tUserNumbers);

It is O(n log n). This however does not make it, if the ordering of the numbers in the input array needs to be kept... In this case I did:

    std::set<int> tTmp;
    std::vector<int>::iterator tNewEnd = 
        std::remove_if(tUserNumbers.begin(), tUserNumbers.end(), 
        [&tTmp] (int pNumber) -> bool {
            return (!tTmp.insert(pNumber).second);
    tUserNumbers.erase(tNewEnd, tUserNumbers.end());

which is still O(n log n) and keeps the original ordering of elements in tUserNumbers.



share|improve this answer

You can add all elements in a set and check when adding if it is already present or not. That would be more elegant and efficient.

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How do you do that? Add in a set I mean. – Saladin Akara Oct 23 '10 at 10:52
@Saladin Akara: have a look at std:set, it's part of STL. – kriss Oct 23 '10 at 11:00
Just a note: You don't have to check with std::set, you can just call insert and if there's a dupe, it'll magically disappear. – Puppy Oct 23 '10 at 11:12
Of course, std::set can quickly become inefficient for larger data sets, which is one of the reasons why std::unordered_set is being added in C++0x. If you can use it, the latter can become much faster for larger data sets. – Jonathan Grynspan Oct 23 '10 at 15:33

It is in extension to the answer by @Puppy, which is the current best answer.

PS : I tried to insert this post as comment in the current best answer by @Puppy but couldn't so as I don't have 50 points yet. Also a bit of experimental data is shared here for further help.

Both std::set and std::map are implemented in STL using Balanced Binary Search tree only. So both will lead to a complexity of O(nlogn) only in this case. While the better performance can be achieved if a hash table is used. std::unordered_map offers hash table based implementation for faster search. I experimented with all three implementations and found the results using std::unordered_map to be better than std::set and std::map. Results and code are shared below. Images are the snapshot of performance measured by LeetCode on the solutions.

bool hasDuplicate(vector<int>& nums) {
    size_t count = nums.size();
    if (!count)
        return false;
    std::unordered_map<int, int> tbl;
    //std::set<int> tbl;
    for (size_t i = 0; i < count; i++) {
        if (tbl.find(nums[i]) != tbl.end())
            return true;
        tbl[nums[i]] = 1;
    return false;

unordered_map Performance (Run time was 52 ms here) enter image description here

Set/Map Performance enter image description here

share|improve this answer

It's ok, specially for small array lengths. I'd use more efficient aproaches (less than n^2/2 comparisons) if the array is mugh bigger - see DeadMG's answer.

Some small corrections for your code:

  • Instead of int j = i writeint j = i +1 and you can omit your if(j != i) test
  • You should't need to declare i variable outside the for statement.
share|improve this answer
I needed to declare i outside the first loop because I'd get an i was not declared in this scope error when I use it in the 'inner' for loop. Wasn't sure why it did that, but declaring outside the loop fixed the problem – Saladin Akara Oct 23 '10 at 11:05
@Saladin: It's a bug in your compiler. Declaring i inside the first for loop should make it accessible in the second. – Puppy Oct 23 '10 at 11:11
Ah, okay. Thanks for the clarification – Saladin Akara Oct 23 '10 at 11:18
@Saladin: And I am guessing your compiler is the < a very bad word here > Visual Studio 6.0, isn't it? – Armen Tsirunyan Oct 23 '10 at 12:29
@Armen Nope - Using the GCC g++ mode. – Saladin Akara Oct 23 '10 at 17:53

I'm not sure why this hasn't been suggested but here is a way in base 10 to find duplicates in O(n).. The problem I see with the already suggested O(n) solution is that it requires that the digits be sorted first.. This method is O(n) and does not require the set to be sorted. The cool thing is that checking if a specific digit has duplicates is O(1). I know this thread is probably dead but maybe it will help somebody! :)

   Takes in a read only unsigned int. A table is created to store counters 
   for each digit. If any digit's counter is flipped higher than 1, function
   returns. For example, with 48778584:
    0   1   2   3   4   5   6   7   8   9
   [0] [0] [0] [0] [2] [1] [0] [2] [2] [0]

   When we iterate over this array, we find that 4 is duplicated and immediately
   return false.

bool Foo( unsigned const int &number)
    int temp = number;
    int digitTable[10]={0};

    while(temp > 0)
        digitTable[temp % 10]++; // Last digit's respective index.
        temp /= 10; // Move to next digit

    for (int i=0; i < 10; i++)
        if (digitTable [i] > 1)
            return false;
    return true;
share|improve this answer
//std::unique(_copy) requires a sorted container.
std::sort(cont.begin(), cont.end());

//testing if cont has duplicates
std::unique(cont.begin(), cont.end()) != cont.end();

//getting a new container with no duplicates
std::unique_copy(cont.begin(), cont.end(), std::back_inserter(cont2));
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