130

Several Linq.Enumerable functions take an IEqualityComparer<T>. Is there a convenient wrapper class that adapts a delegate(T,T)=>bool to implement IEqualityComparer<T>? It's easy enough to write one (if your ignore problems with defining a correct hashcode), but I'd like to know if there is an out-of-the-box solution.

Specifically, I want to do set operations on Dictionarys, using only the Keys to define membership (while retaining the values according to different rules).

Improve this question

14 Answers 14

Reset to default
176

On the importance of GetHashCode

Others have already commented on the fact that any custom IEqualityComparer<T> implementation should really include a GetHashCode method; but nobody's bothered to explain why in any detail.

Here's why. Your question specifically mentions the LINQ extension methods; nearly all of these rely on hash codes to work properly, because they utilize hash tables internally for efficiency.

Take Distinct, for example. Consider the implications of this extension method if all it utilized were an Equals method. How do you determine whether an item's already been scanned in a sequence if you only have Equals? You enumerate over the entire collection of values you've already looked at and check for a match. This would result in Distinct using a worst-case O(N2) algorithm instead of an O(N) one!

Fortunately, this isn't the case. Distinct doesn't just use Equals; it uses GetHashCode as well. In fact, it absolutely does not work properly without an IEqualityComparer<T> that supplies a proper GetHashCode. Below is a contrived example illustrating this.

Say I have the following type:

class Value
{
    public string Name { get; private set; }
    public int Number { get; private set; }

    public Value(string name, int number)
    {
        Name = name;
        Number = number;
    }

    public override string ToString()
    {
        return string.Format("{0}: {1}", Name, Number);
    }
}

Now say I have a List<Value> and I want to find all of the elements with a distinct name. This is a perfect use case for Distinct using a custom equality comparer. So let's use the Comparer<T> class from Aku's answer:

var comparer = new Comparer<Value>((x, y) => x.Name == y.Name);

Now, if we have a bunch of Value elements with the same Name property, they should all collapse into one value returned by Distinct, right? Let's see...

var values = new List<Value>();

var random = new Random();
for (int i = 0; i < 10; ++i)
{
    values.Add("x", random.Next());
}

var distinct = values.Distinct(comparer);

foreach (Value x in distinct)
{
    Console.WriteLine(x);
}

Output:

x: 1346013431
x: 1388845717
x: 1576754134
x: 1104067189
x: 1144789201
x: 1862076501
x: 1573781440
x: 646797592
x: 655632802
x: 1206819377

Hmm, that didn't work, did it?

What about GroupBy? Let's try that:

var grouped = values.GroupBy(x => x, comparer);

foreach (IGrouping<Value> g in grouped)
{
    Console.WriteLine("[KEY: '{0}']", g);
    foreach (Value x in g)
    {
        Console.WriteLine(x);
    }
}

Output:

[KEY = 'x: 1346013431']
x: 1346013431
[KEY = 'x: 1388845717']
x: 1388845717
[KEY = 'x: 1576754134']
x: 1576754134
[KEY = 'x: 1104067189']
x: 1104067189
[KEY = 'x: 1144789201']
x: 1144789201
[KEY = 'x: 1862076501']
x: 1862076501
[KEY = 'x: 1573781440']
x: 1573781440
[KEY = 'x: 646797592']
x: 646797592
[KEY = 'x: 655632802']
x: 655632802
[KEY = 'x: 1206819377']
x: 1206819377

Again: didn't work.

If you think about it, it would make sense for Distinct to use a HashSet<T> (or equivalent) internally, and for GroupBy to use something like a Dictionary<TKey, List<T>> internally. Could this explain why these methods don't work? Let's try this:

var uniqueValues = new HashSet<Value>(values, comparer);

foreach (Value x in uniqueValues)
{
    Console.WriteLine(x);
}

Output:

x: 1346013431
x: 1388845717
x: 1576754134
x: 1104067189
x: 1144789201
x: 1862076501
x: 1573781440
x: 646797592
x: 655632802
x: 1206819377

Yeah... starting to make sense?

Hopefully from these examples it's clear why including an appropriate GetHashCode in any IEqualityComparer<T> implementation is so important.

Original answer

Expanding on orip's answer:

There are a couple of improvements that can be made here.

  1. First, I'd take a Func<T, TKey> instead of Func<T, object>; this will prevent boxing of value type keys in the actual keyExtractor itself.
  2. Second, I'd actually add a where TKey : IEquatable<TKey> constraint; this will prevent boxing in the Equals call (object.Equals takes an object parameter; you need an IEquatable<TKey> implementation to take a TKey parameter without boxing it). Clearly this may pose too severe a restriction, so you could make a base class without the constraint and a derived class with it.

Here's what the resulting code might look like:

public class KeyEqualityComparer<T, TKey> : IEqualityComparer<T>
{
    protected readonly Func<T, TKey> keyExtractor;

    public KeyEqualityComparer(Func<T, TKey> keyExtractor)
    {
        this.keyExtractor = keyExtractor;
    }

    public virtual bool Equals(T x, T y)
    {
        return this.keyExtractor(x).Equals(this.keyExtractor(y));
    }

    public int GetHashCode(T obj)
    {
        return this.keyExtractor(obj).GetHashCode();
    }
}

public class StrictKeyEqualityComparer<T, TKey> : KeyEqualityComparer<T, TKey>
    where TKey : IEquatable<TKey>
{
    public StrictKeyEqualityComparer(Func<T, TKey> keyExtractor)
        : base(keyExtractor)
    { }

    public override bool Equals(T x, T y)
    {
        // This will use the overload that accepts a TKey parameter
        // instead of an object parameter.
        return this.keyExtractor(x).Equals(this.keyExtractor(y));
    }
}
Improve this answer
8
  • 1
    Your StrictKeyEqualityComparer.Equals method appears to be the same as KeyEqualityComparer.Equals. Does the TKey : IEquatable<TKey> constraint make TKey.Equals work differently?
    – Justin Morgan
    May 9, 2012 at 20:48
  • 2
    @JustinMorgan: Yes--in the first case, since TKey may be any arbitrary type, the compiler will use the virtual method Object.Equals which will require boxing of value type parameters, e.g., int. In the latter case, however, since TKey is constrained to implement IEquatable<TKey>, the TKey.Equals method will be used which will not require any boxing.
    – Dan Tao
    May 9, 2012 at 20:59
  • 2
    Very interesting, thanks for the info. I had no idea GetHashCode had these LINQ implications until seeing these answers. Great to know for future use.
    – Justin Morgan
    May 10, 2012 at 14:51
  • 1
    @JohannesH: Probably! Would have eliminated the need for StringKeyEqualityComparer<T, TKey> too.
    – Dan Tao
    May 8, 2013 at 12:41
  • 1
    +1 @DanTao: Belated thanks for a great exposition of why one should never ignore hash codes when defining equality in .Net.
    – Marcelo Cantos
    Jun 29, 2013 at 14:24
119

When you want to customize equality checking, 99% of the time you're interested in defining the keys to compare by, not the comparison itself.

This could be an elegant solution (concept from Python's list sort method).

Usage:

var foo = new List<string> { "abc", "de", "DE" };

// case-insensitive distinct
var distinct = foo.Distinct(new KeyEqualityComparer<string>( x => x.ToLower() ) );

The KeyEqualityComparer class:

public class KeyEqualityComparer<T> : IEqualityComparer<T>
{
    private readonly Func<T, object> keyExtractor;

    public KeyEqualityComparer(Func<T,object> keyExtractor)
    {
        this.keyExtractor = keyExtractor;
    }

    public bool Equals(T x, T y)
    {
        return this.keyExtractor(x).Equals(this.keyExtractor(y));
    }

    public int GetHashCode(T obj)
    {
        return this.keyExtractor(obj).GetHashCode();
    }
}
Improve this answer
9
  • 3
    This is much better than aku's answer.
    – SLaks
    Jun 9, 2010 at 15:11
  • Definitely the right approach. There are a couple improvements that can be made, in my opinion, which I've mentioned in my own answer.
    – Dan Tao
    Sep 15, 2010 at 16:41
  • 1
    This is very elegant code, but it doesn't answer the question, which is why I accepted @aku's answer instead. I wanted a wrapper for Func<T, T, bool> and I have no requirement to extract a key, since the key is already separated out in my Dictionary.
    – Marcelo Cantos
    Sep 15, 2010 at 22:10
  • 6
    @Marcelo: That's fine, you can do that; but be aware that if you're going to take @aku's approach, you really should add a Func<T, int> to supply the hash code for a T value (as has been suggested in, e.g., Ruben's answer). Otherwise the IEqualityComparer<T> implementation you're left with is quite broken, especially with regards to its usefulness in LINQ extension methods. See my answer for a discussion on why this is.
    – Dan Tao
    Sep 16, 2010 at 13:46
  • This is nice but if the key being selected was a value type there would be unnecessary boxing. Perhaps would be better to have a TKey for defining the key.
    – Graham Ambrose
    Aug 12, 2011 at 13:19
47

I'm afraid there is no such wrapper out-of-box. However it's not hard to create one:

class Comparer<T>: IEqualityComparer<T>
{
    private readonly Func<T, T, bool> _comparer;

    public Comparer(Func<T, T, bool> comparer)
    {
        if (comparer == null)
            throw new ArgumentNullException("comparer");

        _comparer = comparer;
    }

    public bool Equals(T x, T y)
    {
        return _comparer(x, y);
    }

    public int GetHashCode(T obj)
    {
        return obj.ToString().ToLower().GetHashCode();
    }
}

...

Func<int, int, bool> f = (x, y) => x == y;
var comparer = new Comparer<int>(f);
Console.WriteLine(comparer.Equals(1, 1));
Console.WriteLine(comparer.Equals(1, 2));
Improve this answer
6
  • 1
    However, be careful with that implementation of GetHashCode. If you're actually going to be using it in some sort of hash table you'll want something a bit more robust.
    – thecoop
    Jun 15, 2009 at 11:27
  • 48
    this code has a serious problem! it is easy to come up with a class that has two objects that are equal in terms of this comparer but have different hash codes.
    – empi
    Feb 12, 2010 at 16:27
  • 10
    To remedy this, the class needs another member private readonly Func<T, int> _hashCodeResolver that must also be passed in the constructor and be used in the GetHashCode(...) method.
    – herzmeister
    Sep 16, 2010 at 13:53
  • 6
    I'm curious: Why are you using obj.ToString().ToLower().GetHashCode() instead of obj.GetHashCode()?
    – Justin Morgan
    May 9, 2012 at 20:40
  • 4
    The places in the framework that take an IEqualityComparer<T> invariably use hashing behind the scenes (e.g., LINQ's GroupBy, Distinct, Except, Join, etc) and the MS contract regarding hashing is broken in this implementation. Here's MS's documentation excerpt: "Implementations are required to ensure that if the Equals method returns true for two objects x and y, then the value returned by the GetHashCode method for x must equal the value returned for y." See: msdn.microsoft.com/en-us/library/ms132155
    – devgeezer
    Aug 23, 2012 at 3:55
46

Ordinarily, I'd get this resolved by commenting @Sam on the answer (I've done some editing on the original post to clean it up a bit without altering the behavior.)

The following is my riff of @Sam's answer, with a [IMNSHO] critical fix to the default hashing policy:-

class FuncEqualityComparer<T> : IEqualityComparer<T>
{
    readonly Func<T, T, bool> _comparer;
    readonly Func<T, int> _hash;

    public FuncEqualityComparer( Func<T, T, bool> comparer )
        : this( comparer, t => 0 ) // NB Cannot assume anything about how e.g., t.GetHashCode() interacts with the comparer's behavior
    {
    }

    public FuncEqualityComparer( Func<T, T, bool> comparer, Func<T, int> hash )
    {
        _comparer = comparer;
        _hash = hash;
    }

    public bool Equals( T x, T y )
    {
        return _comparer( x, y );
    }

    public int GetHashCode( T obj )
    {
        return _hash( obj );
    }
}
Improve this answer
21
  • 6
    As far as I'm concerned this is the correct answer. Any IEqualityComparer<T> that leaves GetHashCode out is just straight-up broken.
    – Dan Tao
    Sep 16, 2010 at 13:47
  • 1
    @Joshua Frank: It's not valid to use hash equality to imply equality - only the inverse is true. In short, @Dan Tao is completely correct in what he says, and this answer is simply the application of this fact to a previously incomplete answer
    – Ruben Bartelink
    Dec 20, 2010 at 5:10
  • 2
    @Ruben Bartelink: Thanks for clarifying. But I still don't understand your hashing policy of t => 0. If all objects always hash to the same thing (zero), then isn't that even more broken than using obj.GetHashCode, per @Dan Tao's point? Why not always force the caller to provide a good hash function?
    – Joshua Frank
    Dec 22, 2010 at 15:36
  • 1
    Thus it is not reasonable to assume that an arbitrary algorithm in a Func its been supplied cannot possibly return true despite the hash codes being different. Your point that returning zero all the time is just not hashing is true. That's why there's an overload that takes the hashing Func for when the profiler tells us searches are not sufficiently efficient. The only point in all of this is that if you're going to have a default hashing algorithm, it should be one that works 100% of the time and doesnt have dangerous superficially correct behavior. And then we can work on the performance!
    – Ruben Bartelink
    Dec 22, 2010 at 20:24
  • 4
    In other words, since you are using a custom comparer it has nothing to do with the object's default hash code related to the default comparer, thus you cannot use it.
    – Peet Brits
    Jan 13, 2011 at 11:13
26

Same as Dan Tao's answer, but with a few improvements:

  1. Relies on EqualityComparer<>.Default to do the actual comparing so that it avoids boxing for value types (structs) that has implemented IEquatable<>.

  2. Since EqualityComparer<>.Default used it doesn't explode on null.Equals(something).

  3. Provided static wrapper around IEqualityComparer<> which will have a static method to create the instance of comparer - eases calling. Compare

     Equality<Person>.CreateComparer(p => p.ID);

    with

     new EqualityComparer<Person, int>(p => p.ID);

  4. Added an overload to specify IEqualityComparer<> for the key.

The class:

public static class Equality<T>
{
    public static IEqualityComparer<T> CreateComparer<V>(Func<T, V> keySelector)
    {
        return CreateComparer(keySelector, null);
    }

    public static IEqualityComparer<T> CreateComparer<V>(Func<T, V> keySelector, 
                                                         IEqualityComparer<V> comparer)
    {
        return new KeyEqualityComparer<V>(keySelector, comparer);
    }

    class KeyEqualityComparer<V> : IEqualityComparer<T>
    {
        readonly Func<T, V> keySelector;
        readonly IEqualityComparer<V> comparer;

        public KeyEqualityComparer(Func<T, V> keySelector, 
                                   IEqualityComparer<V> comparer)
        {
            if (keySelector == null)
                throw new ArgumentNullException(nameof(keySelector));

            this.keySelector = keySelector;
            this.comparer = comparer ?? EqualityComparer<V>.Default;
        }

        public bool Equals(T x, T y)
        {
            return comparer.Equals(keySelector(x), keySelector(y));
        }

        public int GetHashCode(T obj)
        {
            return comparer.GetHashCode(keySelector(obj));
        }
    }
}

you may use it like this:

var comparer1 = Equality<Person>.CreateComparer(p => p.ID);
var comparer2 = Equality<Person>.CreateComparer(p => p.Name);
var comparer3 = Equality<Person>.CreateComparer(p => p.Birthday.Year);
var comparer4 = Equality<Person>.CreateComparer(p => p.Name, StringComparer.CurrentCultureIgnoreCase);

Person is a simple class:

class Person
{
    public int ID { get; set; }
    public string Name { get; set; }
    public DateTime Birthday { get; set; }
}
Improve this answer
2
  • 3
    +1 for providing an implementation that lets you provide a comparer for the key. Besides giving more flexibility this also avoids boxing value types for both the comparisons and also the hashing.
    – devgeezer
    Aug 23, 2012 at 3:06
  • 2
    This is the most fleshed out answer here. I added a null check as well. Complete.
    – nawfal
    Apr 18, 2013 at 11:35
11 
public class FuncEqualityComparer<T> : IEqualityComparer<T>
{
    readonly Func<T, T, bool> _comparer;
    readonly Func<T, int> _hash;

    public FuncEqualityComparer( Func<T, T, bool> comparer )
        : this( comparer, t => t.GetHashCode())
    {
    }

    public FuncEqualityComparer( Func<T, T, bool> comparer, Func<T, int> hash )
    {
        _comparer = comparer;
        _hash = hash;
    }

    public bool Equals( T x, T y )
    {
        return _comparer( x, y );
    }

    public int GetHashCode( T obj )
    {
        return _hash( obj );
    }
}

With extensions :-

public static class SequenceExtensions
{
    public static bool SequenceEqual<T>( this IEnumerable<T> first, IEnumerable<T> second, Func<T, T, bool> comparer )
    {
        return first.SequenceEqual( second, new FuncEqualityComparer<T>( comparer ) );
    }

    public static bool SequenceEqual<T>( this IEnumerable<T> first, IEnumerable<T> second, Func<T, T, bool> comparer, Func<T, int> hash )
    {
        return first.SequenceEqual( second, new FuncEqualityComparer<T>( comparer, hash ) );
    }
}
Improve this answer
1
6

orip's answer is great.

Here a little extension method to make it even easier:

public static IEnumerable<T> Distinct<T>(this IEnumerable<T> list, Func<T, object>    keyExtractor)
{
    return list.Distinct(new KeyEqualityComparer<T>(keyExtractor));
}
var distinct = foo.Distinct(x => x.ToLower())
Improve this answer
2

I'm going to answer my own question. To treat Dictionaries as sets, the simplest method seems to be to apply set operations to dict.Keys, then convert back to Dictionaries with Enumerable.ToDictionary(...).

Improve this answer
2

The implementation at (german text) Implementing IEqualityCompare with lambda expression cares about null values and uses extension methods to generate IEqualityComparer.

To create an IEqualityComparer in a Linq union your just have to write

persons1.Union(persons2, person => person.LastName)

The comparer:

public class LambdaEqualityComparer<TSource, TComparable> : IEqualityComparer<TSource>
{
  Func<TSource, TComparable> _keyGetter;
    
  public LambdaEqualityComparer(Func<TSource, TComparable> keyGetter)
  {
    _keyGetter = keyGetter;
  }
    
  public bool Equals(TSource x, TSource y)
  {
    if (x == null || y == null) return (x == null && y == null);
    return object.Equals(_keyGetter(x), _keyGetter(y));
  }
   
  public int GetHashCode(TSource obj)
  {
    if (obj == null) return int.MinValue;
    var k = _keyGetter(obj);
    if (k == null) return int.MaxValue;
    return k.GetHashCode();
  }
}

You also need to add an extension method to support type inference

public static class LambdaEqualityComparer
{
       // source1.Union(source2, lambda)
        public static IEnumerable<TSource> Union<TSource, TComparable>(
           this IEnumerable<TSource> source1, 
           IEnumerable<TSource> source2, 
            Func<TSource, TComparable> keySelector)
        {
            return source1.Union(source2, 
               new LambdaEqualityComparer<TSource, TComparable>(keySelector));
       }
   }
Improve this answer
1

Just one optimization: We can use the out-of-the-box EqualityComparer for value comparisions, rather than delegating it.

This would also make the implementation cleaner as actual comparision logic now stays in GetHashCode() and Equals() which you may have already overloaded.

Here is the code:

public class MyComparer<T> : IEqualityComparer<T> 
{ 
  public bool Equals(T x, T y) 
  { 
    return EqualityComparer<T>.Default.Equals(x, y); 
  } 

  public int GetHashCode(T obj) 
  { 
    return obj.GetHashCode(); 
  } 
}

Don't forget to overload GetHashCode() and Equals() methods on your object.

This post helped me: c# compare two generic values

Sushil

Improve this answer
2
  • 1
    NB same issue as identified in comment on stackoverflow.com/questions/98033/… - CANT assume obj.GetHashCode() makes sense
    – Ruben Bartelink
    Sep 15, 2010 at 16:23
  • 4
    I don't get the purpose of this one. You created an equality comparer that's equivalent to the default equality comparer. So why don't you use it directly?
    – CodesInChaos
    Oct 7, 2012 at 15:36
1

orip's answer is great. Expanding on orip's answer:

i think that the solution's key is use "Extension Method" to transfer the "anonymous type".

    public static class Comparer 
    {
      public static IEqualityComparer<T> CreateComparerForElements<T>(this IEnumerable<T> enumerable, Func<T, object> keyExtractor)
      {
        return new KeyEqualityComparer<T>(keyExtractor);
      }
    }

Usage:

var n = ItemList.Select(s => new { s.Vchr, s.Id, s.Ctr, s.Vendor, s.Description, s.Invoice }).ToList();
n.AddRange(OtherList.Select(s => new { s.Vchr, s.Id, s.Ctr, s.Vendor, s.Description, s.Invoice }).ToList(););
n = n.Distinct(x=>new{Vchr=x.Vchr,Id=x.Id}).ToList();
Improve this answer
0 
public static Dictionary<TKey, TValue> Distinct<TKey, TValue>(this IEnumerable<TValue> items, Func<TValue, TKey> selector)
  {
     Dictionary<TKey, TValue> result = null;
     ICollection collection = items as ICollection;
     if (collection != null)
        result = new Dictionary<TKey, TValue>(collection.Count);
     else
        result = new Dictionary<TKey, TValue>();
     foreach (TValue item in items)
        result[selector(item)] = item;
     return result;
  }

This makes it possible to select a property with lambda like this: .Select(y => y.Article).Distinct(x => x.ArticleID);

Improve this answer
0 
public class DelegateEqualityComparer<T>: IEqualityComparer<T>
{
    private readonly Func<T, T, bool> _equalsDelegate;
    private readonly Func<T, int>     _getHashCodeDelegate;

    public DelegateEqualityComparer(Func<T, T, bool> equalsDelegate, Func<T, int> getHashCodeDelegate)
    {
        _equalsDelegate      = equalsDelegate      ?? ((tx, ty) => object.Equals(tx, ty));
        _getHashCodeDelegate = getHashCodeDelegate ?? (t => t.GetSafeHashCode());
    }

    public bool Equals(T x, T y) => _equalsDelegate(x, y);

    public int GetHashCode(T obj) => _getHashCodeDelegate(obj);
}
Improve this answer
1
  • 1
    Please don't post code-only answers. The main audience, future readers, will be grateful to see explained why this answers the question instead of having to infer it from the code. Also, since this is an old question, please explain how it complements the other answers.
    – Gert Arnold
    Oct 7, 2022 at 7:07
-2

I don't know of an existing class but something like:

public class MyComparer<T> : IEqualityComparer<T>
{
  private Func<T, T, bool> _compare;
  MyComparer(Func<T, T, bool> compare)
  {
    _compare = compare;
  }

  public bool Equals(T x, Ty)
  {
    return _compare(x, y);
  }

  public int GetHashCode(T obj)
  {
    return obj.GetHashCode();
  }
}

Note: I haven't actually compiled and run this yet, so there might be a typo or other bug.

Improve this answer
1

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