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

int TargetNumber = 13;

The Nearest Number to 13 is 15 in my Array.

How can I Find The nearest number in the array.

ex: 15 in my array

up vote 49 down vote accepted

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 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;

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