# Select from a range but exclude certain numbers [duplicate]

Is it possible to pick a random number from a given range (1-90), but exclude certain numbers. The excluded numbers are dynamically created but lets say they are 3, 8, and 80.

I have managed to create random number generator but couldn't identify any functions that let me fulfill my requirements.

``````Random r = new Random();
this.num = r.Next(1, 90);
``````

The numbers which are to be excluded are previously generated numbers. So, if the random number is one, this would then get added to the excluded numbers list.

-

## marked as duplicate by mbeckish, Bolu, Mansfield, Soner Gönül, Donal FellowsDec 5 '13 at 14:52

stackoverflow.com/a/18485399/352101 – Bolu Dec 5 '13 at 14:12
If you have K non-excluded numbers, then choose a random number between 1 and K, and then map that number to the actual value. For example, if your valid values are [1,3,5,6], choose a random value between 1 and 4. If you randomly choose 3, then your result is 5, because it is third in the list of valid values. – mbeckish Dec 5 '13 at 14:13
@mbeckish mapping is non-trivial if you have a non-contiguous range of exclusions, such as `[1, 27, 29, 35, 76]` – ashes999 Dec 5 '13 at 14:14
@ashes999 - It is trivial if your range is small enough to put into an array. The OP has not provided specific details, which is why I didn't get into the specifics of the mapping. – mbeckish Dec 5 '13 at 14:15
I'm sorry guys... – RSM Dec 5 '13 at 14:39

Using some handy extension methods here, you can create a range of numbers and select randomly from that rage. For example, with these extension methods:

``````public static T RandomElement(this IEnumerable<T> enumerable)
{
return enumerable.RandomElementUsing(new Random());
}

public static T RandomElementUsing(this IEnumerable<T> enumerable, Random rand)
{
int index = rand.Next(0, enumerable.Count());
return enumerable.ElementAt(index);
}
``````

You can apply these to a filtered range of numbers:

``````var random = Enumerable.Range(1, 90).Except(arrayOfRemovedNumbers).RandomElement();
``````
-
Using `ElementAt` with a non-direct IList source is not very effective I think. – King King Dec 5 '13 at 14:24
@KingKing: Can you elaborate? Admittedly I haven't tested it, but the MSDN docs seem to indicate that it would work. – David Dec 5 '13 at 14:35
Yes, I agree it works beautifully, I just want to mean the performance of ElementAt is not good if the enumerable source is large, unless we use it on some direct IList. However I think it is OK for the OP. – King King Dec 5 '13 at 14:38
@KingKing: Performance is definitely something the OP would want to test, agreed. For a list of integers in this case, I can't imagine it being a big deal. Certainly better than the answers which suggest picking a new random number in a loop :) – David Dec 5 '13 at 14:39
Thankyou, everyone had good ideas, but I learnt new things from this answer, so great, thanks. – RSM Dec 5 '13 at 14:45

Create a container which holds the numbers you do not want:

``````var excludedNumbers = new List<int> { 1, 15, 35, 89 };
``````

Then use do something like:

``````Random random = new Random();

int number;

do
{
number = r.Next(1, 90);
} while (excludedNumbers.Contains(number));

// number is not in the excluded list now
``````
-
Putting an assignment inside a while loop is not a great idea. – ashes999 Dec 5 '13 at 14:14
@ashes999 You're right. I've updated my answer! – gleng Dec 5 '13 at 14:17

Might not be the best choice but you can use a while loop to check the numbers you don't want

``````Random r = new Random();
this.num = r.Next(1, 90);
do
{
this.num = r.Next(1, 90);
}
while (this.num == 3 || this.num == 8 || this.num == 90);
``````

For much numbers you can use an array or a list and loop through them

``````int[] exclude = { 3, 8, 90, 11, 24 };
Random r = new Random();
this.num = r.Next(1, 90);
do
{
this.num = r.Next(1, 90);
}
while (exclude.Contains(this.num));
``````
-
I am sure he can do this himself. I guess he was asking for a more elegant solution :). – nphx Dec 5 '13 at 14:08
what if we have many excluded numbers such as about 50 numbers? using a while loop may delay your calculation, for example, if we have 88 excluded numbers, it may have to loop much before finding the non-excluded one. – King King Dec 5 '13 at 14:08
@KingKing Then just add them in an array and check whether the current number is present. – nphx Dec 5 '13 at 14:09
@nphx As I said Not the best choice – user2509901 Dec 5 '13 at 14:09
@nphx my comment has been updated, that's not the only issue. – King King Dec 5 '13 at 14:10

Your latest update, which implies that each value can only be selected once, makes the problem easy.

1. Create a collection of values within the range.
2. Randomly shuffle the collection.
3. To"randomly" select an item, just return the first item in the collection, and remove it from the collection.
-
``````Random r = new Random();
this.num = r.Next(1, 90);

int excluded[] = new int[] { 3,8,80 }; // list any numbers in this array you want to exclude

for (int i = 0; i < excluded.Length; i++)
{
if (this.num == excluded[i])
{
this.num = r.Next(1, 90); // or you can try doing something else here
}
}
``````
-

Make sure `excludedNumbers` is a `HashSet` for best performance.

``````var random = new Random();
var exludedNumbers = new HashSet<int>(new int[] { 3, 8, 80});
var randomNumber = (from n in Enumerable.Range(int.MinValue, int.MaxValue)
let number = random.Next(1, 90)
where !exludedNumbers.Contains(number)
select number).First();
``````
-

This solution does it in O(n) worst case where n is your list of exclusions, and constant memory. The code is a little longer but might be relevant if you:

• Possibly have a huge list of exclusions
• Need to run this many times
• Have a large range

It preserves the random distribution in the sense that it actually skips the exclusion list and generates a random number within the range excluding the set.

This is the implementation:

``````private static int RandomInRangeExcludingNumbers(Random random, int min, int max, int[] excluded)
{
if (excluded.Length == 0) return random.Next(min, max);

//array should be sorted, remove this check if you
//can make sure, or sort the array before using it
//to improve performance. Also no duplicates allowed
//by this implementation
int previous = excluded[0];
for (int i = 1; i < excluded.Length; i++)
{
if (previous >= excluded[i])
{
throw new ArgumentException("excluded array should be sorted");
}
}

//basic error checking, check that (min - max) > excluded.Length
if (max - min <= excluded.Length)
throw new ArgumentException("the range should be larger than the list of exclusions");

int output = random.Next(min, max - excluded.Length);

int j = 0;
//set the start index to be the first element that can fall into the range
while (j < excluded.Length && excluded[j] < min) j++;

//skip each number occurring between min and the randomly generated number
while (j < excluded.Length && excluded[j] <= output)
{
j++;
output++;
while (excluded.Contains(output))
output++;
}

return output;
}
``````

And a test function to make sure it works (over 100k elements)

``````private static void Test()
{
Random random = new Random();
int[] excluded = new[] { 3, 7, 80 };
int min = 1, max = 90;

for (int i = 0; i < 100000; i++)
{
int randomValue = RandomInRangeExcludingNumbers(random, min, max, excluded);

if (randomValue < min || randomValue >= max || excluded.Contains(randomValue))
{
Console.WriteLine("Error! {0}", randomValue);
}
}
Console.WriteLine("Done");
}
``````
-