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I have an array of doubles and I want the index of the highest value. These are the solutions that I've come up with so far but I think that there must be a more elegant solution. Ideas?

double[] score = new double[] { 12.2, 13.3, 5, 17.2, 2.2, 4.5 };
int topScoreIndex = score.Select((item, indx) => new {Item = item, Index = indx}).OrderByDescending(x => x.Item).Select(x => x.Index).First();

topScoreIndex = score.Select((item, indx) => new {Item = item, Index = indx}).OrderBy(x => x.Item).Select(x => x.Index).Last();

double maxVal = score.Max();
topScoreIndex = score.Select((item, indx) => new {Item = item, Index = indx}).Where(x => x.Item == maxVal).Select(x => x.Index).Single();
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7 Answers 7

up vote 26 down vote accepted

I suggest writing your own extension method (edited to be generic with an IComparable<T> constraint.)

public static int MaxIndex<T>(this IEnumerable<T> sequence)
    where T : IComparable<T>
    int maxIndex = -1;
    T maxValue = default(T); // Immediately overwritten anyway

    int index = 0;
    foreach (T value in sequence)
        if (value.CompareTo(maxValue) > 0 || maxIndex == -1)
             maxIndex = index;
             maxValue = value;
    return maxIndex;

Note that this returns -1 if the sequence is empty.

A word on the characteristics:

  • This works with a sequence which can only be enumerated once - this can sometimes be very important, and is generally a desirable feature IMO.
  • The memory complexity is O(1) (as opposed to O(n) for sorting)
  • The runtime complexity is O(n) (as opposed to O(n log n) for sorting)

As for whether this "is LINQ" or not: if it had been included as one of the standard LINQ query operators, would you count it as LINQ? Does it feel particularly alien or unlike other LINQ operators? If MS were to include it in .NET 4.0 as a new operator, would it be LINQ?

EDIT: If you're really, really hell-bent on using LINQ (rather than just getting an elegant solution) then here's one which is still O(n) and only evaluates the sequence once:

int maxIndex = -1;
int index=0;
double maxValue = 0;

int urgh = sequence.Select(value => {
    if (maxIndex == -1 || value > maxValue)
        maxIndex = index;
        maxValue = value;
    return maxIndex;

It's hideous, and I don't suggest you use it at all - but it will work.

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This isn't LINQ Jon –  Pascal Paradis Jan 20 '09 at 19:40
It is Linq to Objects, Pascal. –  Will Jan 20 '09 at 19:43
@Pascal: How do you define LINQ, exactly? To me, one of the nice things about LINQ is that you can add your own operators which work smoothly with the predefined ones. Editing for performance issues. –  Jon Skeet Jan 20 '09 at 19:55
@Jon: Got it! I was out of the track. That being said. Elegant solution! –  Pascal Paradis Jan 20 '09 at 21:43
That's a great answer Jon - thanks. I tend to refer to extension methods like this LINQ but I'm guessing that I'd lose a semantic argument if that's what it came down to. –  Guy Jan 21 '09 at 0:27

Meh, why make it overcomplicated? This is the simplest way.

var indexAtMax = scores.ToList().IndexOf(scores.Max());

Yeah, you could make an extension method to use less memory, but unless you're dealing with huge arrays, you will never notice the difference.

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In my book this should be the accepted answer - why a dozen lines when one will do? –  TaW Sep 17 '14 at 7:27
var scoreList = score.ToList();
int topIndex =
      from x
      in score
      orderby x
      select scoreList.IndexOf(x)

If score wasn't an array this wouldn't be half bad...

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I have to vote up Jon; its probably the better solution overall. This is the linq-iest way to do it without writing an extension method, tho. –  Will Jan 20 '09 at 19:44
I have to vote up Will. I like Jon's answer but this seems to come closer to answering the question asked. Ultimately, Guy will let us know which answer is best :) –  wcm Jan 20 '09 at 19:58
Will - I love this answer. From a purest point of view this is probably the "correct" answer but I felt that Jon's answer was what I wanted. Thanks for taking the time to answer the question. –  Guy Jan 21 '09 at 0:29
is it really a good solution to sort the list ( O(log(n)) ) for an operation which is O(n) ? –  Viktor Sehr Jan 13 '11 at 13:57

MoreLinq is a library that provides this functionality and much more.

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I had this problem today (to get the index in a users array who had highest age), and I did on this way:

var position = users.TakeWhile(u => u.Age != users.Max(x=>x.Age)).Count();

It was on C# class, so its noob solution, I´am sure your ones are better :)

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you do realize that each time you compare u.Age to users.Max(x=>x.Age), you are doing another another N trip over the IEnumerable? Making it: O(n^2) complexity. –  Marcel Valdez Orozco Apr 10 '12 at 4:44

The worst possible complexity of this is O(2N) ~= O(N), but it needs to enumerate the collection two times.

 void Main()
    IEnumerable<int> numbers = new int[] { 1, 2, 3, 4, 5 };

    int max = numbers.Max ();
    int index = -1;
    numbers.Any (number => { index++; return number == max;  });

    if(index != 4) {
        throw new Exception("The result should have been 4, but " + index + " was found.");

    "Simple test successful.".Dump();
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If you want something that looks LINQy, in that it's purely functional, then Jon Skeets' answer above can be recast as:

public static int MaxIndex<T>(this IEnumerable<T> sequence) where T : IComparable<T>
        return sequence.Aggregate(
            new { maxIndex = -1, maxValue = default(T), thisIndex = 0 },
            ((agg, value) => (value.CompareTo(agg.maxValue) > 0 || agg.maxIndex == -1) ?
                             new {maxIndex = agg.thisIndex, maxValue = value, thisIndex = agg.thisIndex + 1} :
                             new {maxIndex = agg.maxIndex, maxValue = agg.maxValue, thisIndex = agg.thisIndex + 1 })).

This has the same computational complexity as the other answer, but is more profligate with memory, creating an intermediate answer for each element of the enumerable.

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