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Right, so I have an enumerable and wish to get distinct values from it.

Using System.Linq, there's of course an extension method called Distinct. In the simple case, it can be used with no parameters, like:

var distinctValues = myStringList.Distinct();

Well and good, but if I have an enumerable of objects for which I need to specify equality, the only available overload is:

var distinctValues = myCustomerList.Distinct(someEqualityComparer);

The equality comparer argument must be an instance of IEqualityComparer<T>. I can do this, of course, but it's somewhat verbose and, well, cludgy.

What I would have expected is an overload that would take a lambda, say a Func<T, T, bool>:

var distinctValues
    = myCustomerList.Distinct((c1, c2) => c1.CustomerId == c2.CustomerId);

Anyone know if some such extension exists, or some equivalent workaround? Or am I missing something?

Alternatively, is there a way of specifying an IEqualityComparer inline (embarass me)?


I found a reply by Anders Hejlsberg to a post in an MSDN forum on this subject. He says:

The problem you're going to run into is that when two objects compare equal they must have the same GetHashCode return value (or else the hash table used internally by Distinct will not function correctly). We use IEqualityComparer because it packages compatible implementations of Equals and GetHashCode into a single interface.

I suppose that makes sense..

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see stackoverflow.com/questions/1183403/… for a solution using GroupBy –  user943105 Sep 13 '11 at 17:47
Thanks for the Anders Hejlsberg update! –  Tor Haugen Sep 28 '11 at 8:17

10 Answers 10

up vote 490 down vote accepted
myCustomerList.GroupBy(cust => cust.CustomerId).Select(grp => grp.First());
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brilliant: in ONE line. –  frenchie Mar 14 '11 at 3:46
Excellent! This is really easy to encapsulate in an extension method too, like DistinctBy (or even Distinct, since the signature will be unique). –  Tomas Lycken Jul 27 '11 at 11:33
Doesn't work for me ! <The method 'First' can only be used as a final query operation. Consider using the method 'FirstOrDefault' in this instance instead.> Even I tried 'FirstOrDefault' it didn't work. –  JatSing Sep 25 '11 at 13:55
@TorHaugen: Just be aware that there's a cost involved in creating all those groups. This cannot stream the input, and will end up buffering all the data before returning anything. That may not be relevant for your situation of course, but I prefer the elegance of DistinctBy :) –  Jon Skeet Sep 28 '11 at 11:52
@JonSkeet: This is good enough for VB.NET coders who do not want to import an additional libraries for just one feature. Without ASync CTP, VB.NET does not support the yield statement so streaming is technically not possible. Thanks for your answer though. I'll use it when coding in C#. ;-) –  Alex Essilfie Dec 11 '11 at 14:46

It looks to me like you want DistinctBy from MoreLINQ. You can then write:

var distinctValues = myCustomerList.DistinctBy(c => c.CustomerId);

Here's a cut-down version of DistinctBy (no nullity checking and no option to specify your own key comparer):

public static IEnumerable<TSource> DistinctBy<TSource, TKey>
     (this IEnumerable<TSource> source, Func<TSource, TKey> keySelector)
    HashSet<TKey> knownKeys = new HashSet<TKey>();
    foreach (TSource element in source)
        if (knownKeys.Add(keySelector(element)))
            yield return element;
share|improve this answer
Excellent Library –  Jalal El-Shaer Nov 23 '10 at 14:02
It looks like a great library except it's in BETA which I can't release in my non-beta projects... –  Shimmy May 11 '12 at 2:59
@Shimmy: Just take the method you need, if you want. You don't need the full library, and you should be able to inspect the methods for correctness (and check the unit tests, of course). –  Jon Skeet May 11 '12 at 6:00
I used the method from the answer above, it's a one timer, no need the method. Thanks anyway. –  Shimmy May 11 '12 at 6:03
this is so much better than the marked answer! –  Aaron Anodide Jul 2 '13 at 11:34

No there is no such extension method overload for this. I've found this frustrating myself in the past and as such I usually write a helper class to deal with this problem. The goal is to convert a Func<T,T,bool> to IEqualityComparer<T,T>.


public class EqualityFactory {
  private sealed class Impl<T> : IEqualityComparer<T,T> {
    private Func<T,T,bool> m_del;
    private IEqualityComparer<T> m_comp;
    public Impl(Func<T,T,bool> del) { 
      m_del = del;
      m_comp = EqualityComparer<T>.Default;
    public bool Equals(T left, T right) {
      return m_del(left, right);
    public int GetHashCode(T value) {
      return m_comp.GetHashCode(value);
  public static IEqualityComparer<T,T> Create<T>(Func<T,T,bool> del) {
    return new Impl<T>(del);

This allows you to write the following

var distinctValues = myCustomerList
  .Distinct(EqualityFactory.Create((c1, c2) => c1.CustomerId == c2.CustomerId));
share|improve this answer
That has a nasty hash code implementation though. It's easier to create an IEqualityComparer<T> from a projection: stackoverflow.com/questions/188120/… –  Jon Skeet Aug 19 '09 at 14:05
(Just to explain my comment about the hash code - it's very easy with this code to end up with Equals(x, y) == true, but GetHashCode(x) != GetHashCode(y). That basically breaks anything like a hashtable.) –  Jon Skeet Aug 19 '09 at 14:06
I agree with the hash code objection. Still, +1 for the pattern. –  Tor Haugen Aug 19 '09 at 14:11
@Jon, yeah I agree the original implementation of GetHashcode is less than optimal (was being lazy). I switched it to essentially use now EqualityComparer<T>.Default.GetHashcode() which is slightly more standard. Truthfully though, the only guaranteed to work GetHashcode implementation in this scenario is to simply return a constant value. Kills hashtable lookup but is guaranteed to be functionally correct. –  JaredPar Aug 19 '09 at 14:13
@JaredPar: Exactly. The hash code has to be consistent with the equality function you're using, which presumably isn't the default one otherwise you wouldn't bother :) That's why I prefer to use a projection - you can get both equality and a sensible hash code that way. It also makes the calling code have less duplication. Admittedly it only works in cases where you want the same projection twice, but that's every case I've seen in practice :) –  Jon Skeet Aug 19 '09 at 14:16

This will do what you want but I don't know about performance:

var distinctValues =
    from cust in myCustomerList
    group cust by cust.CustomerId
    into gcust
    select gcust.First();

At least it's not verbose.

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This is just another way of writing the top answer, above. :) –  jm. May 17 '12 at 0:25

Something I have used which worked well for me.

/// <summary>
/// A class to wrap the IEqualityComparer interface into matching functions for simple implementation
/// </summary>
/// <typeparam name="T">The type of object to be compared</typeparam>
public class MyIEqualityComparer<T> : IEqualityComparer<T>
    /// <summary>
    /// Create a new comparer based on the given Equals and GetHashCode methods
    /// </summary>
    /// <param name="equals">The method to compute equals of two T instances</param>
    /// <param name="getHashCode">The method to compute a hashcode for a T instance</param>
    public MyIEqualityComparer(Func<T, T, bool> equals, Func<T, int> getHashCode)
        if (equals == null)
            throw new ArgumentNullException("equals", "Equals parameter is required for all MyIEqualityComparer instances");
        EqualsMethod = equals;
        GetHashCodeMethod = getHashCode;
    /// <summary>
    /// Gets the method used to compute equals
    /// </summary>
    public Func<T, T, bool> EqualsMethod { get; private set; }
    /// <summary>
    /// Gets the method used to compute a hash code
    /// </summary>
    public Func<T, int> GetHashCodeMethod { get; private set; }

    bool IEqualityComparer<T>.Equals(T x, T y)
        return EqualsMethod(x, y);

    int IEqualityComparer<T>.GetHashCode(T obj)
        if (GetHashCodeMethod == null)
            return obj.GetHashCode();
        return GetHashCodeMethod(obj);
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Here's a simple extension method that does what I need...

public static class EnumerableExtensions
    public static IEnumerable<TKey> Distinct<T, TKey>(this IEnumerable<T> source, Func<T, TKey> selector)
        return source.GroupBy(selector).Select(x => x.Key);

It's a shame they didn't bake a distinct method like this into the framework, but hey ho.

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Why the downvote? I'm genuinely interested if there's a good reason... –  David Kirkland Jun 9 at 11:01

All solutions I've seen here rely on selecting an already comparable field. If one needs to compare in a different way, though, this solution here seems to work generally, for something like:

somedoubles.Distinct(new LambdaComparer<double>((x, y) => Math.Abs(x - y) < double.Epsilon)).Count()
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I'm assuming you have an IEnumerable, and in your example delegate, you would like c1 and c2 to be referring to two elements in this list?

I believe you could achieve this with a self join var distinctResults = from c1 in myList join c2 in myList on

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If Distinct() doesn't produce unique results, try this one:

var filteredWC = tblWorkCenter.GroupBy(cc => cc.WCID_I).Select(grp => grp.First()).Select(cc => new Model.WorkCenter { WCID = cc.WCID_I }).OrderBy(cc => cc.WCID); 

ObservableCollection<Model.WorkCenter> WorkCenter = new ObservableCollection<Model.WorkCenter>(filteredWC);
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Improved solution

myCustomerList.GroupBy(c => c.CustomerId, (key, c) => c.FirstOrDefault());
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Could you add some explanation of why this is improved? –  Kazark Aug 20 at 13:50
Sorry. This is not an improved solution. Shorthand solution... –  Arasu RRK Aug 20 at 16:59

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