# Avoiding random duplicates

``````System.Random generator = new Random(DateTime.Now.Millisecond);
int[] lotteryNumber = new int[7];

Console.WriteLine("Your lottery numbers: ");
for (int i = 0; i<7; i++)
{
lotteryNumber[i] = generator.Next(1, 37);
Console.Write("{0} ",lotteryNumber[i]);
}
``````

I need to make a program that prints 7 lottery numbers, but without duplicates. The code above prints 7 random numbers in the range of (1-37), but duplicates appaer. I need a way to prevent duplicate numbers from appearing.

• @PLB: or to simply shuffle it. – Wug Nov 2 '12 at 13:08

The simplest approach IMO would be to generate a sequence of all the possible numbers (i.e. 1-37), shuffle the collection, then take the first seven results.

Searching on Stack Overflow for "Fisher-Yates shuffle C#" will find lots of examples.

In fact, you could modify the Fisher-Yates shuffle to yield results as you took them, so you could write a method such as:

``````var numbers = Enumerable.Range(1, 37).Shuffle().Take(7).ToList();
``````

You could take a dictionary but make sure that you prevent duplicate key insertion. Keys of dictionary would serve as the unique numbers you need

• this method will have an obvious overhead but will be fool proof in scrapping duplicity. – Amber Nov 2 '12 at 13:08

You could toss them into a `HashSet<int>`. If you `Add` and it returns false, generate a new number.

If you're trying to pick numbers from a range without repetitions, you need to create an array of all the possible numbers and then "shuffle" a random selection out:

``````int[] allPossibleNumbers = Enumerable.Range(1, 37).ToArray();
int[] lotteryNumber = new int[7];
for (int i = 0; i < 7; i++)
{
int index = r.Next(i, 37);
lotteryNumber[i] = allPossibleNumbers[index];
allPossibleNumbers[index] = allPossibleNumbers[i];
// This step not necessary, but allows you to reuse allPossibleNumbers
// rather than generating a fresh one every time.
// allPossibleNumbers[i] = lotteryNumber[i];
}
``````
• Thanks, that worked like a charm! I've not yet learned about the first sentence of code you wrote. The "Enumerable.Range(1, 37).ToArray();" part, so i guess there must be another method for achieving the same. – Leth Nov 2 '12 at 13:11
• You could just do `int[] allPossibleNumbers = new int[] { 1, 2, 3, 4, 5, /*yawn */, 36, 37 };` - mine's just the lazy version. – Rawling Nov 2 '12 at 13:12

Generate a list with your 37 items. Then in your for, select one and delete the selected

Maybe this could help, if you get the existing number just try to find new one that isn't in the array:

``````static void Main(string[] args)
{
System.Random generator = new Random(DateTime.Now.Millisecond); int[] lotteryNumber = new int[7];

Console.WriteLine("Your lottery numbers: ");
for (int i = 0; i < 7; i++)
{
int lNumber = 0;
do
{
lNumber = generator.Next(1, 37);
}
while (lotteryNumber.Contains(lNumber));
lotteryNumber[i] = lNumber;

Console.Write("{0} ", lotteryNumber[i]);
}
}
``````
``````HashSet<int> set = new HashSet<int>();
System.Random generator = new Random(DateTime.Now.Millisecond);

while(set.Count < 7){
}
``````

That should work, since a HashSet will automatically ignore duplicates. Just loop until the set reaches the number of units you need. Only potential problem is it has the POTENTIAL (unlikely) to loop for a long time, but it should eventually respond.

so I took your original code...found some logic errors and added the fix you were looking for to prevent random number duplicates.

Enjoy!

`````` System.Random generator = new Random(DateTime.Now.Millisecond);
int[] lotteryNumber = new int[7];
int lowerBounds = 1;
int upperBounds = 8;
int maxNumberLotteryValues = 7;

if ( ( upperBounds - lowerBounds ) < (maxNumberLotteryValues))
{
Console.Write("Warning: Adjust your upper and lower bounds...there are not enough values to create a unique set of Lottery numbers! ");

}
else
{
Console.WriteLine("Your lottery numbers: ");
for (int i = 0; i < maxNumberLotteryValues; i++)
{
int nextNumber = generator.Next(lowerBounds, upperBounds);
int count = lowerBounds;  //Prevent infinite loop

while ((lotteryNumber.Contains(nextNumber))
&& (count <= upperBounds))
{
nextNumber = generator.Next(lowerBounds, upperBounds);
count++;  //Prevent infinite loop
}

lotteryNumber[i] = nextNumber;
Console.Write("{0} ", lotteryNumber[i]);
}
}

``````
``````const int nBalls = 37;
const int nPicks = 6;
int[] balls = new int[nPicks];
Random rnd = new Random(DateTime.Now.Millisecond);

int remainingBalls=nBalls;
int remainingPicks=nPicks;
for (int i = 1; i <= nBalls; i++)
{
if (rnd.Next(1, remainingBalls+1) <= remainingPicks)
balls[--remainingPicks]=i;
remainingBalls--;
}

Console.WriteLine(string.Join(",",balls));
``````

Will outperform Shuffle and HashSet methods as nPicks/nBalls gets larger.