I want my Food class to be able to test whenever it is equal to another instance of Food. I will later use it against a List, and I want to use its List.Contains() method. Should I implement IEquatable<Food> or just override Object.Equals()? From MSDN:

This method determines equality by using the default equality comparer, as defined by the object's implementation of the IEquatable.Equals method for T (the type of values in the list).

So my next question is: which functions/classes of the .NET framework make use of Object.Equals()? Should I use it in the first place?


4 Answers 4


The main reason is performance. When generics were introduced in .NET 2.0 they were able to add a bunch of neat classes such as List<T>, Dictionary<K,V>, HashSet<T>, etc. These structures make heavy use of GetHashCode and Equals. But for value types this required boxing. IEquatable<T> lets a structure implement a strongly typed Equals method, so no boxing is required. Thus much better performance when using value types with generic collections.

Reference types don't benefit as much, but the IEquatable<T> implementation does let you avoid a cast from System.Object which can make a difference if it's called frequently.

As noted on Jared Parson's blog though, you must still implement the standard Object.Equals and Object.GetHashcode overrides.

  • 11
    That is true in C++ but not .NET languages which enforce type safety. There is a runtime cast and if the cast does not succeed, an exception is thrown. So there is a small runtime penalty to pay for casting. The compiler can optimize away upcasts For example object o = (object)"string"; But downcasting - string s = (string)o; - must happen at runtime.
    – Josh
    Apr 29, 2010 at 5:58
  • 1
    I see. By chance you have any place where I can get that kind of "deeper" information about .NET? Thanks! Apr 29, 2010 at 6:03
  • 9
    I would recommend CLR via C# by Jeff Richter and C# in Depth by Jon Skeet. As for blogs, Wintellect blogs are good, msdn blogs, etc.
    – Josh
    Apr 29, 2010 at 6:15
  • 2
    Does the IEquatable<T> interface do anything more than remind a developer to include a public bool Equals(T other) member in the class or struct? The presence or absence of the interface makes no difference at run-time. The overload of Equals would appear to be all that is necessary.
    – mikemay
    Jun 21, 2020 at 8:59
  • 1
    @mikemay it makes a difference for the classes that look for it, usually EqualityComparer<T>.Default, which is the canonical default comparer in basically every BCL class that needs one (like HashSet<T>) Nov 10, 2021 at 23:11

According to the MSDN:

If you implement IEquatable<T>, you should also override the base class implementations of Object.Equals(Object) and GetHashCode so that their behavior is consistent with that of the IEquatable<T>.Equals method. If you do override Object.Equals(Object), your overridden implementation is also called in calls to the static Equals(System.Object, System.Object) method on your class. This ensures that all invocations of the Equals method return consistent results.

So it seems that there's no real functional difference between the two except that either could be called depending on how the class is used. From a performance standpoint, it's better to use the generic version because there's no boxing/unboxing penalty associated with it.

From a logical standpoint, it's also better to implement the interface. Overriding the object doesn't really tell anyone that your class is actually equatable. The override may just be a do nothing class or a shallow implementation. Using the interface explicitly says, "Hey, this thing is valid for equality checking!" It's just better design.

  • 10
    Structs should definitely implement iEquatable(of theirOwnType) if they are going to used as keys in a Dictionary or similar collection; it will offer a major performance boost. Non-inheritable classes will receive a slight performance boost by implementing IEquatable(of theirOwnType). Inheritable classes should //not// implement IEquatable.
    – supercat
    Dec 7, 2010 at 16:34

Extending what Josh said with a practical example. +1 to Josh - I was about to write the same in my answer.

public abstract class EntityBase : IEquatable<EntityBase>
    public EntityBase() { }

    #region IEquatable<EntityBase> Members

    public bool Equals(EntityBase other)
        //Generic implementation of equality using reflection on derived class instance.
        return true;

    public override bool Equals(object obj)
        return this.Equals(obj as EntityBase);


public class Author : EntityBase
    public Author() { }

public class Book : EntityBase
    public Book() { }

This way, I have re-usable Equals() method that works out of the box for all my derived classes.

  • Just one more question. What is the advantage of using "obj as EntityBase" instead of (EntityBase)obj? Just a matter of style or is there any advantage at all? Apr 29, 2010 at 5:44
  • 24
    in case of "obj as EntityBase" - if obj is not of type EntityBase, it will pass "null" and continue without any error or exception, But in case of "(EntityBase)obj", it will forcefully try to cast the obj to EntityBase and if the obj is not of type EntityBase, it will throw InvalidCastException. And yes, "as" can only be applied to reference types. Apr 29, 2010 at 6:05
  • 1
    Josh's link to Jared Par's blog seems to suggest you also need to override GetHashCode. Is this not the case?
    – Amicable
    Apr 7, 2014 at 9:25
  • 3
    I don't really get the extra value your implementation provides. Can you clarify the problem that your abstract base class solves? Jan 6, 2015 at 9:35
  • 1
    @Amicable - yes, whenever you override Object.Equals(Object), you must also override GetHashCode so that containers work.
    – namford
    May 8, 2015 at 15:02

If we call object.Equals, it forces to expensive boxing on value types. This is undesirable in performance-sensitive scenarios. The solution is to use IEquatable<T>.

public interface IEquatable<T>
  bool Equals (T other);

The idea behind IEquatable<T> is that it gives the same result as object.Equals but more quickly. The constrain where T : IEquatable<T> must be used with generic types like below.

public class Test<T> where T : IEquatable<T>
  public bool IsEqual (T a, T b)
    return a.Equals (b); // No boxing with generic T

otherwise, it binds to slower object.Equals().

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