# How to perform .Max() on a property of all objects in a collection and return the object with maximum value [duplicate]

I have a list of objects that have two int properties. The list is the output of another linq query. The object:

``````public class DimensionPair
{
public int Height { get; set; }
public int Width { get; set; }
}
``````

I want to find and return the object in the list which has the largest `Height` property value.

I can manage to get the highest value of the `Height` value but not the object itself.

Can I do this with Linq? How?

• var maxDimension = dimensions.OrderByDesc(x=>x.Height).FirstOrDefault(); Dec 17, 2015 at 21:04
• What a simple and useful feature. A MaxBy function ought to be in the standard library. We should make a feature request to Microsoft github.com/dotnet/corefx Jul 21, 2017 at 15:56

We have an extension method to do exactly this in MoreLINQ. You can look at the implementation there, but basically it's a case of iterating through the data, remembering the maximum element we've seen so far and the maximum value it produced under the projection.

In your case you'd do something like:

``````var item = items.MaxBy(x => x.Height);
``````

This is better (IMO) than any of the solutions presented here other than Mehrdad's second solution (which is basically the same as `MaxBy`):

• It's O(n) unlike the previous accepted answer which finds the maximum value on every iteration (making it O(n^2))
• The ordering solution is O(n log n)
• Taking the `Max` value and then finding the first element with that value is O(n), but iterates over the sequence twice. Where possible, you should use LINQ in a single-pass fashion.
• It's a lot simpler to read and understand than the aggregate version, and only evaluates the projection once per element
• Linq extensions have already a `Max` method which you can use also with lambda expression `var item = items.Max(x => x.Height);` Apr 22, 2014 at 13:58
• @sgissinger: You've missed the point - that will give the maximum height within the collection, not the item with the maximum height. Apr 22, 2014 at 14:04
• FWIW this is the aggregate version: `items.Aggregate((i, j) => i.Height > j.Height ? i : j)`
Jul 19, 2014 at 1:46
• @orad: Yes, that will do it - but much less expressive, IMO. Jul 19, 2014 at 8:14
• MaxBy/MinBy did the job perfectly. +1 For the gift of MoreLinq! Thanks @JonSkeet (Added MoreLinq through NuGet by the way) Dec 19, 2014 at 7:28

This would require a sort (O(n log n)) but is very simple and flexible. Another advantage is being able to use it with LINQ to SQL:

``````var maxObject = list.OrderByDescending(item => item.Height).First();
``````

Note that this has the advantage of enumerating the `list` sequence just once. While it might not matter if `list` is a `List<T>` that doesn't change in the meantime, it could matter for arbitrary `IEnumerable<T>` objects. Nothing guarantees that the sequence doesn't change in different enumerations so methods that are doing it multiple times can be dangerous (and inefficient, depending on the nature of the sequence). However, it's still a less than ideal solution for large sequences. I suggest writing your own `MaxObject` extension manually if you have a large set of items to be able to do it in one pass without sorting and other stuff whatsoever (O(n)):

``````static class EnumerableExtensions {
public static T MaxObject<T,U>(this IEnumerable<T> source, Func<T,U> selector)
where U : IComparable<U> {
if (source == null) throw new ArgumentNullException("source");
bool first = true;
T maxObj = default(T);
U maxKey = default(U);
foreach (var item in source) {
if (first) {
maxObj = item;
maxKey = selector(maxObj);
first = false;
} else {
U currentKey = selector(item);
if (currentKey.CompareTo(maxKey) > 0) {
maxKey = currentKey;
maxObj = item;
}
}
}
if (first) throw new InvalidOperationException("Sequence is empty.");
return maxObj;
}
}
``````

and use it with:

``````var maxObject = list.MaxObject(item => item.Height);
``````
• Rats, didn't see this before I posted. That's basically what we do in MoreLINQ, except we iterate directly using GetEnumerator rather than having a "first" flag. I think it makes the code a bit simpler. We also allow use Comparer<U> and allow one to be passed in, rather than requiring U to implement IComparable, but that's a side issue. Jul 9, 2009 at 5:38
• The last part is a lot of unnecessary complexity for a simple problem. Jul 9, 2009 at 8:48
• This is a solution for a more generic problem. Basically, you declare such an extension method to abstract away the complexity whenever you need it. Jul 9, 2009 at 9:12
• Isn't that how software development works? Jul 9, 2009 at 9:38
• For the sake of completeness, any reason to prefer `OrderByDescending().First()` or `OrderBy().Last()`? I'm using second option in my code (shorter, at least) because I think both whould have the same cost? (edit: well, nevermind... stackoverflow.com/questions/6680666/…) Jun 17, 2014 at 13:33

Doing an ordering and then selecting the first item is wasting a lot of time ordering the items after the first one. You don't care about the order of those.

Instead you can use the aggregate function to select the best item based on what you're looking for.

``````var maxHeight = dimensions
.Aggregate((agg, next) =>
next.Height > agg.Height ? next : agg);

var maxHeightAndWidth = dimensions
.Aggregate((agg, next) =>
next.Height >= agg.Height && next.Width >= agg.Width ? next: agg);
``````
• Is this O(n) then? And how does it handle an empty list? Apr 14, 2013 at 10:28
• This should be the accepted answer. Any other method will iterate over objects more than 1 time or use an unneeded library. See also : stackoverflow.com/questions/3188693/… Nov 26, 2013 at 17:48
• maxHeightAndWidth will perform inconsistently based on the order of the list. For example if you only have {1, 3} and {3, 1}, it will return the first item in the list regardless of the order. So it's not actually useful. Aug 6, 2015 at 19:10
• Worst case this performs just as bad as MaxBy, no? MaxBy will iterate the entire list, and so will this one. Aug 26, 2018 at 8:20
• @ChristopheDeTroyer it's not possible to find the max value without iterating the entire list.
– Koja
Nov 28, 2019 at 8:55

And why don't you try with this ??? :

``````var itemsMax = items.Where(x => x.Height == items.Max(y => y.Height));
``````

OR more optimise :

``````var itemMaxHeight = items.Max(y => y.Height);
var itemsMax = items.Where(x => x.Height == itemMaxHeight);
``````

mmm ?

• Because this is O(n^2). For each item in the list, it goes through all the items and finds the one with the biggest height, then checks if the current item is the same height, and returns it. Fine for small lists, but over 100 items you will notice a difference. Mar 26, 2012 at 4:18
• You are right, So you must before extract items.Max(y => y.Height) from lambda expression and keep it in a variable. var itemMaxHeight = items.Max(y => y.Height); var item = items.Where(x => x.Height == itemMaxHeight); I wrote it quickly because I thought it could be an easier simple way to do it. But to optimise it's better to do that, that's true. Mar 26, 2012 at 12:24
• The more optimized version is now O(2n) which is better, but now requires a temporary variable and 2 lines, and still isn't O(n) like some of the other answers. shrug Mar 26, 2012 at 23:49
• are you sure that the result of items.Max(y => y.Height) won't be cached? Also I thought (as far as big-O notation is concerned) O(2n) was the same as O(n)? Apr 4, 2013 at 10:48
• @CameronMacFarland i want to point out that -mathematically speeaking- O(n) = O(2n), the factors that matter in complexity are exponentials and powers. (I may be expressing this in a non precise way, since ther's some time when i studied this, if some can express it better feel free to edit my post) Aug 14, 2015 at 10:37

The answers so far are great! But I see a need for a solution with the following constraints:

1. Plain, concise LINQ;
2. O(n) complexity;
3. Do not evaluate the property more than once per element.

Here it is:

``````public static T MaxBy<T, R>(this IEnumerable<T> en, Func<T, R> evaluate) where R : IComparable<R> {
return en.Select(t => new Tuple<T, R>(t, evaluate(t)))
.Aggregate((max, next) => next.Item2.CompareTo(max.Item2) > 0 ? next : max).Item1;
}

public static T MinBy<T, R>(this IEnumerable<T> en, Func<T, R> evaluate) where R : IComparable<R> {
return en.Select(t => new Tuple<T, R>(t, evaluate(t)))
.Aggregate((max, next) => next.Item2.CompareTo(max.Item2) < 0 ? next : max).Item1;
}
``````

Usage:

``````IEnumerable<Tuple<string, int>> list = new[] {
new Tuple<string, int>("other", 2),
new Tuple<string, int>("max", 4),
new Tuple<string, int>("min", 1),
new Tuple<string, int>("other", 3),
};
Tuple<string, int> min = list.MinBy(x => x.Item2); // "min", 1
Tuple<string, int> max = list.MaxBy(x => x.Item2); // "max", 4
``````

I believe that sorting by the column you want to get the MAX of and then grabbing the first should work. However, if there are multiple objects with the same MAX value, only one will be grabbed:

``````private void Test()
{
test v1 = new test();
v1.Id = 12;

test v2 = new test();
v2.Id = 12;

test v3 = new test();
v3.Id = 12;

List<test> arr = new List<test>();

test max = arr.OrderByDescending(t => t.Id).First();
}

class test
{
public int Id { get; set; }
}
``````

In NHibernate (with NHibernate.Linq) you could do it as follows:

``````return session.Query<T>()
.Single(a => a.Filter == filter &&
a.Id == session.Query<T>()
.Where(a2 => a2.Filter == filter)
.Max(a2 => a2.Id));
``````

Which will generate SQL like follows:

``````select *
from TableName foo
where foo.Filter = 'Filter On String'
and foo.Id = (select cast(max(bar.RowVersion) as INT)
from TableName bar
where bar.Name = 'Filter On String')
``````

Which seems pretty efficient to me.

Based on Cameron's initial answer, here is what I've just added at my enhanced version of SilverFlow library's FloatingWindowHost (copying from FloatingWindowHost.cs at http://clipflair.codeplex.com source code)

``````    public int MaxZIndex
{
get {
return FloatingWindows.Aggregate(-1, (maxZIndex, window) => {
int w = Canvas.GetZIndex(window);
return (w > maxZIndex) ? w : maxZIndex;
});
}
}

private void SetTopmost(UIElement element)
{
if (element == null)
throw new ArgumentNullException("element");

Canvas.SetZIndex(element, MaxZIndex + 1);
}
``````

Worth noting regarding the code above that Canvas.ZIndex is an attached property available for UIElements in various containers, not just used when being hosted in a Canvas (see Controlling rendering order (ZOrder) in Silverlight without using the Canvas control). Guess one could even make a SetTopmost and SetBottomMost static extension method for UIElement easily by adapting this code.

• oops, sorry, didn't see you want to return the object, not the value - anyway leaving the answer here for anyone who wonders how to return the max value like I was Dec 6, 2013 at 19:15

You can also upgrade Mehrdad Afshari's solution by rewriting the extention method to faster (and better looking) one:

``````static class EnumerableExtensions
{
public static T MaxElement<T, R>(this IEnumerable<T> container, Func<T, R> valuingFoo) where R : IComparable
{
var enumerator = container.GetEnumerator();
if (!enumerator.MoveNext())
throw new ArgumentException("Container is empty!");

var maxElem = enumerator.Current;
var maxVal = valuingFoo(maxElem);

while (enumerator.MoveNext())
{
var currVal = valuingFoo(enumerator.Current);

if (currVal.CompareTo(maxVal) > 0)
{
maxVal = currVal;
maxElem = enumerator.Current;
}
}

return maxElem;
}
}
``````

And then just use it:

``````var maxObject = list.MaxElement(item => item.Height);
``````

That name will be clear to people using C++ (because there is std::max_element in there).