So here is my array.

double[] testArray = new double[10];
// will generate a random numbers from 1-20, too lazy to write the code

I want to make a search loop to check if any values are being repeated. How do I do that?

I would prefer not to use any special built-in methods since this is a small array.

up vote 19 down vote accepted

You could do this with a little Linq:

if (testArray.Length != testArray.Distinct().Count())
{
    Console.WriteLine("Contains duplicates");
}

The Distinct extension method removes any duplicates, and Count gets the size of the result set. If they differ at all, then there are some duplicates in the list.

Alternatively, here's more complicated query, but it may be a bit more efficient:

if (testArray.GroupBy(x => x).Any(g => g.Count() > 1))
{
    Console.WriteLine("Contains duplicates");
}

The GroupBy method will group any identical elements together, and Any return true if any of the groups has more than one element.

Both of the above solutions work by utilizing a HashSet<T>, but you can use one directly like this:

if (!testArray.All(new HashSet<double>().Add))
{
    Console.WriteLine("Contains duplicates");
}

Or if you prefer a solution that doesn't rely on Linq at all:

var hashSet = new HashSet<double>();
foreach(var x in testArray) 
{
    if (!hashSet.Add(x)) 
    {
        Console.WriteLine("Contains duplicates");
        break;
    }
}
  • Oh ok thanks. What is Distinct().Count() supposed to do in general? – puretppc Nov 3 '13 at 20:58
  • @Mike See my updated answer – p.s.w.g Nov 3 '13 at 20:59
  • Oh I see. So if I ONLY want to check for duplicates then I just remove the Distinct() right? And the Count() method means how many times it got duplicated as in size of result set? – puretppc Nov 3 '13 at 21:02
  • 1
    @Mike no Count will return the number of items in the set, i.e. testArray.Length == testArray.Count(). To get the number of duplicates, you can just subtract the two, i.e. testArray.Length - testArray.Distinct().Count() – p.s.w.g Nov 3 '13 at 21:03
  • ok thanks the second one worked well enough for checking if there is a duplicate or not. – puretppc Nov 3 '13 at 21:10

Use this:

bool CheckUniqueness(double[] values)
{
    var uniqueValues = new HashSet<double>();
    foreach (double d in values)
    {
        if(uniqueValues.Contains(d))
        {
            return false;
        }
        uniqueValues.Add(d);
    }
    return true;
}

take look at my implementation its generic and efficient

public static bool HasDuplicates<T>(IList<T> items)
    {
        Dictionary<T, bool> map = new Dictionary<T, bool>();
        for (int i = 0; i < items.Count; i++)
        {
            if (map.ContainsKey(items[i]))
            {
                return true; // has duplicates
            }
            map.Add(items[i], true);
        }
        return false; // no duplicates
    }

here are some calls

string[] strings = new[] { "1", "2", "3" };
Utility.HasDuplicates(strings)// this will return false

int[] items=new []{1,2,3,1};
Utility.HasDuplicates(items)// this will return true
  • Thanks, I modified it slighty to use IEnumerable instead of IList. I also made it into an extension method. – torsan Apr 4 at 11:37

With (OP) 10 random doubles quite fast. The chance of a repeat: ~0.000002 %.

static bool repeat(double[] a)
{
    return
        a[0] == a[1] || a[0] == a[2] || a[0] == a[3] || a[0] == a[4] ||
        a[0] == a[5] || a[0] == a[6] || a[0] == a[7] || a[0] == a[8] ||
        a[0] == a[9] || a[1] == a[2] || a[1] == a[3] || a[1] == a[4] ||
        a[1] == a[5] || a[1] == a[6] || a[1] == a[7] || a[1] == a[8] ||
        a[1] == a[9] || a[2] == a[3] || a[2] == a[4] || a[2] == a[5] ||
        a[2] == a[6] || a[2] == a[7] || a[2] == a[8] || a[2] == a[9] ||
        a[3] == a[4] || a[3] == a[5] || a[3] == a[6] || a[3] == a[7] ||
        a[3] == a[8] || a[3] == a[9] || a[4] == a[5] || a[4] == a[6] ||
        a[4] == a[7] || a[4] == a[8] || a[4] == a[9] || a[5] == a[6] ||
        a[5] == a[7] || a[5] == a[8] || a[5] == a[9] || a[6] == a[7] ||
        a[6] == a[8] || a[6] == a[9] || a[7] == a[8] || a[7] == a[9] ||
        a[8] == a[9];
}

More general, with 10 numbers ~2 times slower than above,
but ~7 times faster than the hashset approach.

static bool repeat(double[] a)
{
    int k = a.Length - 1;
    if (k < 70)
    {
        double aj;
        for (int i = 0, j; i < k; )
        {
            for (aj = a[k--], j = k; j >= i; j--)
                if (aj == a[j]) return true;
            for (aj = a[i++], j = i; j <= k; j++)
                if (aj == a[j]) return true;
        }
        return false;
    }
    var h = new HashSet<double>();
    while (k >= 0) if (!h.Add(a[k--])) return false;
    return true;
}

Two lines (slow with a repeat ;)

static bool repeat(double[] a)
{ return (new HashSet<double>(a).Count < a.Length); }

We must initialize j from i on the first loop and add one(i+1) because we want to compare first loop value with the next value of same array.

int[] arr = new int[]{1,2,3,1,4,2,5,4};

//create one loop for arr values
for (int i = 0;  i < arr.Length; i++)
{
    //create nested loop for compare current values with actual value of arr
    for (int j = i+1; j < arr.Length; j++)
    {

        //and here we put our condition
        if (arr[i] == arr[j])
        {
            Console.WriteLine(arr[i]);
        }
    }
}

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