int[] array = new int[5]{5,7,8,15,20};

int TargetNumber = 13;

For a target number, I want to find the closest number in an array. For example, when the target number is 13, the closest number to it in the array above is 15. How would I accomplish that programmatically in C#?


EDIT: Have adjusted the queries below to convert to using long arithmetic, so that we avoid overflow issues.

I would probably use MoreLINQ's MinBy method:

var nearest = array.MinBy(x => Math.Abs((long) x - targetNumber));

Or you could just use:

var nearest = array.OrderBy(x => Math.Abs((long) x - targetNumber)).First();

... but that will sort the whole collection, which you really don't need. It won't make much difference for a small array, admittedly... but it just doesn't feel quite right, compared with describing what you're actually trying to do: find the element with the minimum value according to some function.

Note that both of these will fail if the array is empty, so you should check for that first.

  • 1
    @JonSkeet Is there a way to alter MinBy version to return index instead of value? – ManInMoon Aug 14 '13 at 11:36
  • 1
    @ManInMoon: The simplest approach would be to use Select((value, index) => new { Value, Index }) to start with, then MinBy would return the pair containing the minimum value, and you could fetch the index that way. – Jon Skeet Aug 14 '13 at 12:20
  • What if I want to find closest number not only once, but several times. Does it change anything? And I don't want to call OrderBy for each number I want to find. – rraszewski Jul 14 '17 at 7:23
  • @rraszewski: Then if the array is potentially large, I'd probably use a binary search, assuming the input array is actually sorted to start with. It requires more code, but would be more efficient. – Jon Skeet Jul 14 '17 at 7:26

If you're using .Net 3.5 or above LINQ can help you here:

var closest = array.OrderBy(v => Math.Abs((long)v - targetNumber)).First();

Alternatively, you could write your own extension method:

public static int ClosestTo(this IEnumerable<int> collection, int target)
    // NB Method will return int.MaxValue for a sequence containing no elements.
    // Apply any defensive coding here as necessary.
    var closest = int.MaxValue;
    var minDifference = int.MaxValue;
    foreach (var element in collection)
        var difference = Math.Abs((long)element - target);
        if (minDifference > difference)
            minDifference = (int)difference;
            closest = element;

    return closest;

Useable like so:

var closest = array.ClosestTo(targetNumber);
  • worth mantioning that this will work from .NET 4.0+, if I have less, may be a simple extension method would be good too. – Tigran Apr 12 '12 at 9:36
  • 2
    @Tigran The OrderBy and First LINQ methods have been available since .Net 3.5. However I take your point, answer updated. – Rich O'Kelly Apr 12 '12 at 9:48
  • +1 for this. But I use a 3.5 and don't have that function. So it's better to have some "B" option. – Tigran Apr 12 '12 at 9:51
  • also if you have an array with {5,7,8,15,20} and targetNumber = 6, closest will be 5 ; if array is {7,5,8,15,20} closest will be 7 – JanOlMajti Apr 12 '12 at 9:55
  • @Tigran: Which function don't you have? If you're using .NET 3.5, you definitely have OrderBy and First - although you'll need a using directive for System.Linq. – Jon Skeet Apr 12 '12 at 10:14

Both Jon and Rich gave great answers with MinBy and ClosestTo. But I would never recommend using OrderBy if your intent is to find a single element. It's far too inefficient for those kinds of tasks. It's simply the wrong tool for the job.

Here's a technique that performs marginally better than MinBy, is already included in the .NET framework, but less elegant than MinBy: Aggregate

var nearest = array.Aggregate((current, next) => Math.Abs((long)current - targetNumber) < Math.Abs((long)next - targetNumber) ? current : next);

As I said, not as elegant as Jon's method, but viable.

Performance on my computer:

  1. For(each) Loops = fastest
  2. Aggregate = 2.5x slower than loops
  3. MinBy = 3.5x slower than loops
  4. OrderBy = 12x slower than loops

I found this really sexy approach years ago in Math.NET Numerics https://numerics.mathdotnet.com/ which works with BinarySearch in the array. It was a good help in preparation for interpolations and works down to .Net 2.0:

public static int LeftSegmentIndex(double[] array, double t)
    int index = Array.BinarySearch(array, t);
    if (index < 0)
        index = ~index - 1;
    return Math.Min(Math.Max(index, 0), array.Length - 2);

Performance wise custom code will be more useful.

public static int FindNearest(int targetNumber, IEnumerable<int> collection) {
    var results = collection.ToArray();
    int nearestValue;
    if (results.Any(ab => ab == targetNumber))
        nearestValue = results.FirstOrDefault(i => i == targetNumber);
        int greaterThanTarget = 0;
        int lessThanTarget = 0;
        if (results.Any(ab => ab > targetNumber)) {
            greaterThanTarget = results.Where(i => i > targetNumber).Min();
        if (results.Any(ab => ab < targetNumber)) {
            lessThanTarget = results.Where(i => i < targetNumber).Max();

        if (lessThanTarget == 0) {
            nearestValue = greaterThanTarget;
        else if (greaterThanTarget == 0) {
            nearestValue = lessThanTarget;
        else if (targetNumber - lessThanTarget < greaterThanTarget - targetNumber) {
            nearestValue = lessThanTarget;
        else {
            nearestValue = greaterThanTarget;
    return nearestValue;

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.